{"pkgId":"20","subjectId":"1239","fullwidthLayout":false,"contentData":{"PACKAGE_NAME":"Universal Curriculum Library Middle School","PACKAGE_SLUG":"ucl-new-middle-school","PACKAGE_IMG":"file_811713976_1589526736.png","ADMCOURSE_ID":"353","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","STANDARD_NAME":"UCL-New","ADMSUBJECT_ID":"1239","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","CAT_NAME":"Quadrilaterals","CONT_ID":"767","CONT_TITLE":"Quadrilaterals","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA quadrilateral is a four-sided closed figure. It is called a parallelogram, if both pairs of opposite sides are parallel. A quadrilateral with at least one pair of parallel sides is known as a trapezium or trapezoid. 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A kite is a quadrilateral whose four sides can be grouped into two pairs of equal length sides that are adjacent to each other.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define the types of quadrilaterals by their sides and angles.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Classify quadrilaterals by their sides and angles.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.vm000002","TOPIC_ID":"vm000002","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000002.jpg","PUBLIC_BANNER_IMG":"vm000002.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000002.mp4","PUBLIC_VIDEO_URL":null,"DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"2143","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;Overview:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;A quadrilateral is a four-sided closed figure. It is called a parallelogram, if both pairs of opposite sides are parallel. A quadrilateral with at least one pair of parallel sides is known as a trapezium or trapezoid. A kite is a quadrilateral whose four sides can be grouped into two pairs of equal length sides that are adjacent to each other.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning Objectives::\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;After completing this module, you will be able to:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define the types of quadrilaterals by their sides and angles.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Classify quadrilaterals by their sides and angles.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Quadrilaterals","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"758","CATEGORY_ID":"1","CONT_TITLE":"Cross Sections","CONT_SLUG":"cross-sections","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA cross section is the intersection of a plane with a three-dimensional object. It can also be defined as a surface or a shape exposed by making a straight cut through a shape. For example, the horizontal cross section of a cylinder is a circle and its vertical cross section is a rectangle.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define the concept of cross section for three-dimensional objects.\u003C\/div\u003E \r\n\u003Cdiv\u003E- State the meaning of horizontal and vertical cross sections.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify the cross sections of three-dimensional objects.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.vm000076","TOPIC_ID":"vm000076","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000076.jpg","PUBLIC_BANNER_IMG":"vm000076.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000076.mp4","PUBLIC_VIDEO_URL":null,"DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"2143","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;Overview:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;A cross section is the intersection of a plane with a three-dimensional object. It can also be defined as a surface or a shape exposed by making a straight cut through a shape. For example, the horizontal cross section of a cylinder is a circle and its vertical cross section is a rectangle.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning Objectives::\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;After completing this module, you will be able to:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define the concept of cross section for three-dimensional objects.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- State the meaning of horizontal and vertical cross sections.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Identify the cross sections of three-dimensional objects.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Cross Sections","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"753","CATEGORY_ID":"1","CONT_TITLE":"Surface Area of Right Circular Cylinders","CONT_SLUG":"surface-area-of-right-circular-cylinders","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA cylinder is a closed solid that has two circular bases connected by a curved surface. The curved surface area is the area of its curved surface excluding the base. The total surface area is calculated by adding the areas of the curved surface and the 2 circular bases.The volume of a cylinder is calculated by multiplying the area of the base with the height of the cylinder.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the curved surface area of a cylinder.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the total surface area of a cylinder.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.vm000012","TOPIC_ID":"vm000012","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000012.jpg","PUBLIC_BANNER_IMG":"vm000012.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000012.mp4","PUBLIC_VIDEO_URL":null,"DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"2143","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;Overview:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;A cylinder is a closed solid that has two circular bases connected by a curved surface. The curved surface area is the area of its curved surface excluding the base. The total surface area is calculated by adding the areas of the curved surface and the 2 circular bases.The volume of a cylinder is calculated by multiplying the area of the base with the height of the cylinder.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning Objectives::\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;After completing this module, you will be able to:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Calculate the curved surface area of a cylinder.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Calculate the total surface area of a cylinder.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Surface Area of Right Circular Cylinders","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"746","CATEGORY_ID":"1","CONT_TITLE":"Properties of a Parallelogram","CONT_SLUG":"properties-of-a-parallelogram","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA parallelogram is defined as a special quadrilateral with its opposite sides parallel and equal. The sum of of its four interior angles is 360 degrees. The diagonals of a parallelogram bisect each other. The sum of adjacent angles of a parallelogram is 180 degrees and opposite angles are equal.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Demonstrate how a diagonal of a parallelogram divides it into two congruent triangles.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Explain the properties of a parallelogram.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify necessary conditions for a quadrilateral to be a parallelogram.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.vm000005","TOPIC_ID":"vm000005","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_file_1826225161_1581315132.jpg","PUBLIC_BANNER_IMG":"file_1826225161_1581315132.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000005.mp4","PUBLIC_VIDEO_URL":null,"DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"2143","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;A parallelogram is defined as a special quadrilateral with its opposite sides parallel and equal. The sum of of its four interior angles is 360 degrees. The diagonals of a parallelogram bisect each other. The sum of adjacent angles of a parallelogram is 180 degrees and opposite angles are equal.\u0026amp;nbsp;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives::\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Demonstrate how a diagonal of a parallelogram divides it into two congruent triangles.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Explain the properties of a parallelogram.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify necessary conditions for a quadrilateral to be a parallelogram.\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Properties of a Parallelogram","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"736","CATEGORY_ID":"1","CONT_TITLE":"Classification of Angles","CONT_SLUG":"classification-of-angles","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAngles are classified as straight, right, acute, or obtuse. An angle is a fraction of a 360\u00b0 circle. A straight angle is the same as half of the circle and its measure is 180\u00b0. A right angle is a quarter of a circle and its measure is 90\u00b0. A protractor can be used to measure angles.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify an acute angle.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify a right angle.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify an obtuse angle.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify a straight angle.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify a reflex angle.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify a complete angle.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.vm000055","TOPIC_ID":"vm000055","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000055.jpg","PUBLIC_BANNER_IMG":"vm000055.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000055.mp4","PUBLIC_VIDEO_URL":null,"DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"2143","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;Overview:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Angles are classified as straight, right, acute, or obtuse. An angle is a fraction of a 360\u00b0 circle. A straight angle is the same as half of the circle and its measure is 180\u00b0. A right angle is a quarter of a circle and its measure is 90\u00b0. A protractor can be used to measure angles.\u0026amp;nbsp;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning Objectives::\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;After completing this module, you will be able to:\u0026amp;nbsp;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify an acute angle.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify a right angle.\u0026amp;nbsp;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify an obtuse angle.\u0026amp;nbsp;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify a straight angle.\u0026amp;nbsp;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify a reflex angle.\u0026amp;nbsp;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify a complete angle.\u0026amp;nbsp;\u0026amp;nbsp;\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Classification of Angles","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"729","CATEGORY_ID":"1","CONT_TITLE":"Slope and Similar Triangles","CONT_SLUG":"slope-and-similar-triangles","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EThe slope or steepness of a non-vertical line is the same between any two points along that line.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EIf we draw a right triangle using two points on any line and then draw another right triangle using two other points on the same line, the triangles formed will be similar to each other because the slope of the line remains same at all of the points.The ratio of the corresponding sides of similar triangles remains equal.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find the slope of a straight line.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find the slope of a straight line using similar triangles.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Use similar triangles to determine if a line is straight or sloped.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.vm000052","TOPIC_ID":"vm000052","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000052.jpg","PUBLIC_BANNER_IMG":"vm000052.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000052.mp4","PUBLIC_VIDEO_URL":null,"DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"2143","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;Overview:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;The slope or steepness of a non-vertical line is the same between any two points along that line.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;If we draw a right triangle using two points on any line and then draw another right triangle using two other points on the same line, the triangles formed will be similar to each other because the slope of the line remains same at all of the points.The ratio of the corresponding sides of similar triangles remains equal.\u0026amp;nbsp;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning objectives:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;After completing this module, you will be able to:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Find the slope of a straight line.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Find the slope of a straight line using similar triangles.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Use similar triangles to determine if a line is straight or sloped.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Slope and Similar Triangles","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"728","CATEGORY_ID":"1","CONT_TITLE":"Distance Between Two Parallel Lines","CONT_SLUG":"distance-between-two-parallel-lines","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EThe distance between two parallel lines is the length of the perpendicular segment between them. It doesn\u0026#039;t matter which perpendicular line is selected, because all the perpendicular lines have the same length. The distance between two parallel lines can be calculated by using the distance formula D= |c1 - c2I \/ (\u221a1 + m\u00b2) where c1 and c2 are the y-intercepts and m is the slope of two parallel lines.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find the distance between two parallel lines, given two points.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find the distance between two parallel lines, given their slope intercept form.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.vm000054","TOPIC_ID":"vm000054","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000054.jpg","PUBLIC_BANNER_IMG":"vm000054.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000054.mp4","PUBLIC_VIDEO_URL":null,"DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"2143","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;Overview:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;The distance between two parallel lines is the length of the perpendicular segment between them. It doesn\u0026#039;t matter which perpendicular line is selected, because all the perpendicular lines have the same length. The distance between two parallel lines can be calculated by using the distance formula D= |c1 - c2I \/ (\u221a1 + m\u00b2) where c1 and c2 are the y-intercepts and m is the slope of two parallel lines.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning Objectives::\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;After completing this module, you will be able to:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Find the distance between two parallel lines, given two points.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Find the distance between two parallel lines, given their slope intercept form.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Distance Between Two Parallel Lines","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"573","CATEGORY_ID":"1","CONT_TITLE":"Volumes of Similar Solids","CONT_SLUG":"volume-of-similar-solids-1","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003ETwo solids are similar if they are the same type of solid and their corresponding radii, heights, base lengths, widths, etc. are proportional. If two solids are similar with a scale factor of (a\/b), then their volumes are in the ratio of (a\/b)\u00b3.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Derive the volume scale factor to calculate the unknown volume of similar solids.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Implement the concept of the volume scale factor to calculate the unknown volume of similar solids in real life situations.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300140","TOPIC_ID":"ms300140","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_file_844782869_1526979019.jpg","PUBLIC_BANNER_IMG":"ms300140.jpg","PUBLIC_VIDEO":"pvideo_ms300140.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/SwHkWBnmc7k","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;h3\u0026gt;Overview:\u0026lt;\/h3\u0026gt;\u0026lt;br\u0026gt;Two solids are similar if they are the same type of solid and their corresponding radii, heights, base lengths, widths, etc. are proportional. If two solids are similar with a scale factor of (a\/b), then their volumes are in the ratio of (a\/b)\u00b3.\u0026lt;br\u0026gt;\u0026lt;h3\u0026gt;\r\nLearning objectives\u0026lt;\/h3\u0026gt;\u0026lt;br\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Derive the volume scale factor to calculate the unknown volume of similar solids.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Implement the concept of the volume scale factor to calculate the unknown volume of similar solids in real life situations.\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Volume of Similar Solids","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"558","CATEGORY_ID":"1","CONT_TITLE":"Surface Area of a Pyramid","CONT_SLUG":"surface-area-of-a-pyramid","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA pyramid is a polyhedron that has a base, which can be any polygon, and three or more triangular faces that meet at a point called the apex. To calculate the surface area of the pyramid, add the areas of all the triangles and the base. The height of a triangle within a pyramid is called the slant height.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Formulate the lateral surface area of the pyramid.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Formulate the total surface area of the pyramid.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300203","TOPIC_ID":"ms300203","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300203.jpg","PUBLIC_BANNER_IMG":"MS300203.jpg","PUBLIC_VIDEO":"pvideo_ms300203.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/2H2wfL5AUBY","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"Overview:\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;A pyramid is a polyhedron that has a base, which can be any polygon, and three or more triangular faces that meet at a point called the apex. To calculate the surface area of the pyramid, add the areas of all the triangles and the base. The height of a triangle within a pyramid is called the slant height.\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Learning objectives\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Formulate the lateral surface area of the pyramid.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Formulate the total surface area of the pyramid.\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Surface Area of Pyramid","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"557","CATEGORY_ID":"1","CONT_TITLE":"Surface Area of a Prism","CONT_SLUG":"surface-area-of-a-prism","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA prism is a three-dimensional shape that has two bases that are parallel, and these are of same size and shape. To find the surface area of a prism, open the prism like a carton box and flatten it out and then add the area of all the shapes used.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify different types of prisms.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the surface area of prisms.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Describe the formula for the surface area of all types of prisms.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300202","TOPIC_ID":"ms300202","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300202.jpg","PUBLIC_BANNER_IMG":"MS300202.jpg","PUBLIC_VIDEO":"pvideo_ms300202.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/WdZ3z1md6yc","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"Overview:\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;A prism is a three-dimensional shape that has two bases that are parallel, and these are of same size and shape. To find the surface area of a prism, open the prism like a carton box and flatten it out and then add the area of all the shapes used.\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Learning objectives\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify different types of prisms.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the surface area of prisms.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Describe the formula for the surface area of all types of prisms.\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Surface Area of Prism","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"555","CATEGORY_ID":"1","CONT_TITLE":"Volume of a Pyramid","CONT_SLUG":"volume-of-pyramid","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA pyramid is a polyhedron that has a base, which can be any polygon, and three or more triangular faces that meet at a point called the apex. The volume \u2019V\u2019 of a pyramid is one-third the area of the base \u2019B\u2019 times the height \u2019h\u2019. V=1\/3(Bh).\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to: \u003C\/div\u003E \r\n\u003Cdiv\u003E- Formulate the volume of triangular pyramid. \u003C\/div\u003E \r\n\u003Cdiv\u003E- Formulate the volume of rectangular pyramid. \u003C\/div\u003E \r\n\u003Cdiv\u003E- Formulate the volume of square based pyramid.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300199","TOPIC_ID":"ms300199","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300199.jpg","PUBLIC_BANNER_IMG":"MS300199.jpg","PUBLIC_VIDEO":"pvideo_ms300199.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/TsO8AErj2ok","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"Overview:\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;A pyramid is a polyhedron that has a base, which can be any polygon, and three or more triangular faces that meet at a point called the apex. The volume \u2019V\u2019 of a pyramid is one-third the area of the base \u2019B\u2019 times the height \u2019h\u2019. V=1\/3(Bh).\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Learning objectives\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;After completing this module, you will be able to: \u0026lt;br\u0026gt;\u0026amp;nbsp;- Formulate the volume of triangular pyramid.\u0026lt;br\u0026gt;\u0026amp;nbsp;- Formulate the volume of rectangular pyramid.\u0026lt;br\u0026gt;\u0026amp;nbsp;- Formulate the volume of square based pyramid.\u0026lt;br\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Volume of Pyramid","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"554","CATEGORY_ID":"1","CONT_TITLE":"Volume of a Prism","CONT_SLUG":"volume-of-prism","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA prism is a three-dimensional shape that has two parallel bases of the same size and shape. The volume \u0026#039;V\u0026#039; of a prism is the area of the base \u0026#039;B\u0026#039; times the height \u0026#039;h\u2019.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to: \u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify different kinds of prisms.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the volume of different kinds of prisms.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300198","TOPIC_ID":"ms300198","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300198.jpg","PUBLIC_BANNER_IMG":"MS300198.jpg","PUBLIC_VIDEO":"pvideo_ms300198.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/iKho31B1T0Q","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"Overview:\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;A prism is a three-dimensional shape that has two parallel bases of the same size and shape. The volume \u0026#039;V\u0026#039; of a prism is the area of the base \u0026#039;B\u0026#039; times the height \u0026#039;h\u2019.\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Learning objectives\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;After completing this module, you will be able to: \u0026lt;br\u0026gt;- Identify different kinds of prisms.\u0026lt;br\u0026gt;- Calculate the volume of different kinds of prisms.\u0026lt;br\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Volume of Prism","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"553","CATEGORY_ID":"1","CONT_TITLE":"Surface Area of Cones","CONT_SLUG":"surface-area-of-cones","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EThe total surface area of a cone is the sum of the area of its base and its lateral surface. The formula for finding total surface area of a cone is SA = \u03c0r\u00b2 + \u03c0rl, where r is the radius and l is the slant height.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the surface area of a cone.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Apply the formula for the surface area of a cone in real life situations.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.hs300192","TOPIC_ID":"hs300192","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300192.jpg","PUBLIC_BANNER_IMG":"HS300192.jpg","PUBLIC_VIDEO":"pvideo_hs300192.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/R_p8vHHjgig","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Overview:\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;The total surface area of a cone is the sum of the area of its base and its lateral surface. The formula\u0026amp;nbsp; for finding total surface area of a cone is SA = \u03c0r\u00b2 + \u03c0rl, where r is the radius and l is the slant height.\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Learning objectives\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;After completing this module, you will be able to:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Calculate the surface area of a cone.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Apply the formula for the surface area of a cone in real life situations.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Surface Area of Cones","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"551","CATEGORY_ID":"1","CONT_TITLE":"Volume of a Sphere","CONT_SLUG":"volume-of-sphere","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA sphere is a round solid figure in which every point on its surface is equidistant from its center. The volume V of a sphere is four-thirds times pi times the radius cubed. The volume of a sphere is 2\/3 of the volume of a cylinder with the same radius, and height being equal to the diameter of the sphere.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the volume of a sphere.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Apply the formula for the volume of a sphere in real life situations.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.hs300190","TOPIC_ID":"hs300190","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300190.jpg","PUBLIC_BANNER_IMG":"hs300190.jpg","PUBLIC_VIDEO":"pvideo_hs300190.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/6d_7asXX3sk","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"Overview:\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;A sphere is a round solid figure in which every point on its surface is equidistant from its center. The volume V of a sphere is four-thirds times pi times the radius cubed. The volume of a sphere is 2\/3 of the volume of a cylinder with the same radius, and height being equal to the diameter of the sphere.\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Learning objectives\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the volume of a sphere.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Apply the formula for the volume of a sphere in real life situations.\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Volume of Sphere","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"550","CATEGORY_ID":"1","CONT_TITLE":"Use of the Pythagorean Theorem","CONT_SLUG":"use-of-pythagoras-theorem","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EThe Pythagorean theorem deals with the lengths of the sides of a right triangle. The theorem states that the sum of the squares of the lengths of the legs of a right triangle is equal to the square of the length of its hypotenuse .\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Explain the Pythagorean theorem.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the unknown dimensions of any right triangle.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Apply the Pythagorean theorem in real life situations.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.hs300186","TOPIC_ID":"hs300186","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300186.jpg","PUBLIC_BANNER_IMG":"HS300186.jpg","PUBLIC_VIDEO":"pvideo_hs300186.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/ftnG5We0TUc","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"Overview:\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;The Pythagorean theorem deals with the lengths of the sides of a right triangle. The theorem states that the sum of the squares of the lengths of the legs of a right triangle is equal to the square of the length of its hypotenuse .\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Learning objectives\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Explain the Pythagorean theorem.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the unknown dimensions of any right triangle.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Apply the Pythagorean theorem in real life situations.\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Use of Pythagoras Theorem","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"549","CATEGORY_ID":"1","CONT_TITLE":"Surface Area of Similar Solids","CONT_SLUG":"surface-area-of-similar-solids","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003ETwo solids are similar if they are the same type of solid and their corresponding radii, heights, base lengths, widths, etc. are proportional. When two shapes are similar, the ratio of their areas is the square of the scale factor.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Derive the scale factor of the surface area for calculating the unknown surface areas of similar solids.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Apply the scale factor in calculating the unknown surface areas of similar solids.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":"ms300180.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300180","TOPIC_ID":"ms300180","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300180.jpg","PUBLIC_BANNER_IMG":"MS300180.jpg","PUBLIC_VIDEO":"pvideo_ms300180.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/9_FLcWDJPwA","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;\u0026lt;span style=\u0026quot;color: rgb(0, 0, 0); font-family: Arial; white-space: pre-wrap;\u0026quot;\u0026gt;Overview:\u0026lt;\/span\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Two solids are similar if they are the same type of solid and their corresponding radii, heights, base lengths, widths, etc. are proportional. When two shapes are similar, the ratio of their areas is the square of the scale factor.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning Objectives:\u0026lt;\/p\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Derive the scale factor of the surface area for calculating the unknown surface areas of similar solids.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Apply the scale factor in calculating the unknown surface areas of similar solids.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Surface Area of Similar Solids","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"547","CATEGORY_ID":"1","CONT_TITLE":"Area and Perimeter of Similar Figures","CONT_SLUG":"area-and-perimeter-of-similar-figures","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003ETwo figures are said to be similar when their corresponding angles are equal and their corresponding sides are in the same proportion. The ratio of the perimeters, is same as the scale factor and the ratio of area, is equal to the ratio of square of scale factor.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define scale factor.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the areas of similar figures.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the perimeters of similar figures.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300161","TOPIC_ID":"ms300161","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300161.jpg","PUBLIC_BANNER_IMG":"ms300161.jpg","PUBLIC_VIDEO":"pvideo_ms300161.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/9juFL-pUHrE","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"Overview:\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Two figures are said to be similar when their corresponding angles are equal and their corresponding sides are in the same proportion. The ratio of the perimeters, is same as the scale factor and the ratio of area, is equal to the ratio of square of scale factor.\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Learning objectives\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Define scale factor.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the areas of similar figures.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the perimeters of similar figures.\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Area and Perimeter of Similar Figures","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"546","CATEGORY_ID":"1","CONT_TITLE":"Rotational Symmetry","CONT_SLUG":"rotational-symmetry","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA shape has rotational symmetry when it still looks the same after a rotation (of less than one full turn). If an image can be rotated to three different positions and each look the same then it will have a rotational symmetry of order 3.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Determine the order of rotational symmetry for any 2D shape.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Explore rotational symmetry in real life.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300156","TOPIC_ID":"ms300156","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300156.jpg","PUBLIC_BANNER_IMG":"MS300156.jpg","PUBLIC_VIDEO":"pvideo_ms300156.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/nIhLm9tcs1s","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;A shape has rotational symmetry when it still looks the same after a rotation (of less than one full turn). If an image can be rotated to three different positions and each look the same then it will have a rotational symmetry of order 3.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Determine the order of rotational symmetry for any 2D shape.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Explore rotational symmetry in real life.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Rotational Symmetry","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"536","CATEGORY_ID":"1","CONT_TITLE":"Area of Composite Figures","CONT_SLUG":"area-of-composite-figures","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA composite figure is made up of several simple geometric figures such as triangles, rectangles, squares, circles, and semicircles. To find the area of a composite figure, divide the figure into simpler shapes and then add areas of all the figures together.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to: \u003C\/div\u003E \r\n\u003Cdiv\u003E- Explain how to break down and calculate the area of composite figures.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300134","TOPIC_ID":"ms300134","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300134.jpg","PUBLIC_BANNER_IMG":"ms300134.jpg","PUBLIC_VIDEO":"pvideo_ms300134.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/_UsnFsnVIDo","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"Overview:\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;A composite figure is made up of several simple geometric figures such as triangles, rectangles, squares, circles, and semicircles. To find the area of a composite figure, divide the figure into simpler shapes and then add areas of all the figures together.\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;Learning objectives\u0026lt;br\u0026gt;\u0026lt;br\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026amp;nbsp;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Explain how to break down and calculate the area of composite figures.\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Area of Composite Figures","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"532","CATEGORY_ID":"1","CONT_TITLE":"Properties of Quadrilaterals","CONT_SLUG":"properties-of-quadrilaterals","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA quadrilateral is a four sided two dimensional closed figure, made up of straight sides. The sum of all the interior angles is equal to 360 degrees. Different types of quadrilaterals have different properties. For example in parallelogram, opposite sides and angles are equal and the sum of adjacent angles is 180 degree.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Explain the properties of different quadrilaterals.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300122","TOPIC_ID":"ms300122","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300122.jpg","PUBLIC_BANNER_IMG":"MS300122.jpg","PUBLIC_VIDEO":"pvideo_ms300122.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/9vST38Cr7Bw","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"0","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;A quadrilateral is a four sided two dimensional closed figure, made up of straight sides. The sum of all the interior angles is equal to 360 degrees. Different types of quadrilaterals have different properties. For example in parallelogram, opposite sides and angles are equal and the sum of adjacent angles is 180 degree.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Explain the properties of different quadrilaterals.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Properties of Quadrilaterals","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"362","CATEGORY_ID":"1","CONT_TITLE":"Types of Triangles","CONT_SLUG":"types-of-triangles","CONT_TITLE_AR":"Types of Triangles","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA triangle is a closed figure made of three lines. On the basis of angles, the triangles are classified as obtuse, acute and right angled triangles. On the basis of sides, triangles are classified as scalene, isosceles and equilateral triangles.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify and explore different types of triangles on the basis of their sides.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify and explore different types of triangles on the basis of their angles.\u003C\/div\u003E","CONT_DESC_AR":"Scalene triangle: a triangle with no equal angles and no equal sides. Isosceles triangle: a triangle having two equal angles and two equal sides.\u0026lt;br \/\u0026gt;\nEquilateral triangle: a triangle having three equal sides and three equal angles of 60\u0026lt;sup\u0026gt;0\u0026lt;\/sup\u0026gt; each.\u0026lt;br \/\u0026gt;\nRight triangle: a triangle with one right angle of 90\u0026amp;deg;.\u0026lt;br \/\u0026gt;\nAcute Triangle: a triangle having all angles less than 90\u0026amp;deg;.\u0026lt;br \/\u0026gt;\nObtuse Triangle: a triangle having an angle greater than 90\u0026amp;deg;.\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objective\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nAt the end of simulation, you will be familiar with the different types of triangles.","BACKING_FILE":"ms300034.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300034","TOPIC_ID":"ms300034","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300034.jpg","PUBLIC_BANNER_IMG":"ms300034.jpg","PUBLIC_VIDEO":"pvideo_ms300034.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/yNezS9CFPsA","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;A triangle is a closed figure made of three lines. On the basis of angles, the triangles are classified as obtuse, acute and \u0026amp;nbsp;right angled triangles. On the basis of sides, triangles are classified as scalene, isosceles and equilateral triangles.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify and explore different types of triangles on the basis of their sides.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify and explore different types of triangles on the basis of their angles.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Types of Triangles","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"334","CATEGORY_ID":"1","CONT_TITLE":"Volume and Surface Area of Frustum","CONT_SLUG":"volume-and-surface-area-of-frustum","CONT_TITLE_AR":"Volume and Surface Area of Frustum","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EThe portion of a cone which remains after its upper part has been cut off by a plane parallel to its base is known as frustum of a cone. In this module, we will learn about the method of finding curved surface area, total surface area and volume of frustum.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Derive the formula for the curved surface area of a frustum.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Derive the formula for the total surface area of a frustum.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Derive the formula for the volume of a frustum.\u003C\/div\u003E","CONT_DESC_AR":"The portion of a cone or pyramid which remains after its upper part has been cut off by a plane parallel to its base, or which is intercepted between two such planes.\r\nIn this topic we will find the curved surface area, total surface area and volume of frustum.\u003Cbr \/\u003E\u003Cbr \/\u003E\r\n\u003Cstrong\u003ELearning Objectives:\u003C\/strong\u003E\u003Cbr \/\u003E\u003Cbr \/\u003E\r\nIn this topic you will be able to\u003Cbr \/\u003E\r\n- identify and formulate curved surface area of a frustum\u003Cbr \/\u003E\r\n- identify and formulate total surface area of a frustum\u003Cbr \/\u003E\r\n- identify and formulate the volume of a frustum","BACKING_FILE":"hs300022.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.hs300022","TOPIC_ID":"hs300022","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300022.jpg","PUBLIC_BANNER_IMG":"hs300022.jpg","PUBLIC_VIDEO":"pvideo_hs300022.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/9ttN4dy1iC0","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;The portion of a cone which remains after its upper part has been cut off by a plane parallel to its base is known as frustum of a cone. In this module, we will learn about the method of finding curved surface area, total surface area and volume of frustum.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Derive the formula for the curved surface area of a frustum.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Derive the formula for the total surface area of a frustum.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Derive the formula for the volume of a frustum.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Volume and Surface Area of Frustum","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"239","CATEGORY_ID":"1","CONT_TITLE":"Volume of a Cone","CONT_SLUG":"volume-of-a-cone","CONT_TITLE_AR":"Volume of a Cone","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EThe volume of a cone is the amount of space that will fit inside it. The volume of a cone is one-third of the volume of cylinder.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify and formulate the volume of cone.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Apply the formula of volume of cone in real life situations.\u003C\/div\u003E","CONT_DESC_AR":"The volume of a cone is the amount of space that will fit inside it. We use the formula for the volume of a cone is one-third of the volume of cylinder.\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objectives\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nIn this simulation you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; determine the volume of a cone\u0026lt;br \/\u0026gt;\n\u0026amp;bull; apply the formula of the volume of a cone","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.hs300025","TOPIC_ID":"hs300025","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300025.jpg","PUBLIC_BANNER_IMG":"HS300025.jpg","PUBLIC_VIDEO":"pvideo_hs300025.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/Sx8Sn7O6-_c","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;The volume of a cone is the amount of space that will fit inside it. The volume of a cone is one-third of the volume of cylinder.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify and formulate the volume of cone.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Apply the formula of volume of cone in real life situations.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Volume of a Cone","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"238","CATEGORY_ID":"1","CONT_TITLE":"Volume and Surface Area of a Cube and Cuboid","CONT_SLUG":"volume-and-surface-area-of-cube-and-cuboid","CONT_TITLE_AR":"Volume and Surface Area of Cube and Cuboid","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA cube is a solid object with six square surfaces which are all the same size while a cuboid is a solid shape with six rectangular surfaces. The total surface area of both cube and cuboid can be calculated by adding the areas of all the six faces. Their lateral surface area is calculated by adding the areas of four walls only. The volume of a cuboid is the product of its dimensions.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the surface area of a cuboid and cube.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the volume of a cuboid and cube.\u003C\/div\u003E","CONT_DESC_AR":"If l, b and h are the length, breadth and height of a cuboid respectively, then Total surface area = 2(lb + bh + lh) and Volume = lbh\r\nIf  \u0027a\u0027 is the length of the edge of a cube, then\r\nTotal surface area = 6a2 and Volume = a3\u003C\/br\u003E\u003C\/br\u003E\r\n\u003Cstrong\u003ELearning Objectives \u003C\/strong\u003E\u003C\/br\u003E\u003C\/br\u003E\r\nIn this topic you will be able to:\u003C\/br\u003E\r\n\u2022 compute the surface area of a cuboid and cube\u003C\/br\u003E\r\n\u2022 compute the volume of a cuboid and cube","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.hs300024","TOPIC_ID":"hs300024","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300024.jpg","PUBLIC_BANNER_IMG":"hs300024.jpg","PUBLIC_VIDEO":"pvideo_hs300024.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/idAy4P0XYQ8","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;A cube is a solid object with six square surfaces which are all the same size while a cuboid is a solid shape with six rectangular surfaces. The total surface area of both cube and cuboid can be calculated by adding the areas of all the six faces. Their lateral surface area is calculated by adding the areas of four walls only. The volume of a cuboid is the product of its dimensions.\u0026amp;nbsp;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the surface area of a cuboid and cube.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the volume of a cuboid and cube.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Volume and Surface Area of Cube and Cuboid","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"237","CATEGORY_ID":"1","CONT_TITLE":"Polygons","CONT_SLUG":"polygons","CONT_TITLE_AR":"Polygons","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA polygon is a two dimensional closed shape formed with straight lines. Triangles, quadrilaterals, pentagons, and hexagons are some of its examples. The first suffix in the name of a polygons tells about the number of sides that the polygon have. For example, in triangle, \u0026#039;tri\u0026#039; means 3 sides.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify polygons and non polygons.\u003C\/div\u003E","CONT_DESC_AR":"A polygon is any 2-dimensional shape formed with straight lines. Triangles, quadrilaterals, pentagons, and hexagons are all examples of\u0026amp;nbsp;polygons. The name tells you how many sides the shape has. For example, a triangle has three sides, and a quadrilateral has four sides.\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objective\u0026lt;\/strong\u0026gt;\n\u0026lt;p\u0026gt;\u0026lt;br \/\u0026gt;\nAt the end of simulation you will be able to identify polygons.\u0026lt;\/p\u0026gt;\n","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300041","TOPIC_ID":"ms300041","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300041.jpg","PUBLIC_BANNER_IMG":"MS300041.jpg","PUBLIC_VIDEO":"pvideo_ms300041.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/hZrn_cF9g30","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;A polygon is a two dimensional closed shape formed with straight lines. Triangles, quadrilaterals, pentagons, and hexagons are some of its examples. The first suffix in the name of a polygons tells about the number of sides that the polygon have. For example, in triangle, \u0026#039;tri\u0026#039; means 3 sides.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objective\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify polygons and non polygons.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;\r\n","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Polygons","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"235","CATEGORY_ID":"1","CONT_TITLE":"Circle","CONT_SLUG":"circle","CONT_TITLE_AR":"Circle","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA circle is defined as a round closed figure whose boundary consists of points equidistant from a fixed point.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EIts radius is the line connecting the center to the outer boundary of circle and diameter is twice of the radius. The circumference of a circle is defined as the outer boundary of circle. The formula for calculating circumference is 2\u03c0r and for calculating area is \u03c0r\u00b2.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAt the end of this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define a circle.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify and define the radius and diameter of a circle.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the circumference and the area of a circle.\u003C\/div\u003E","CONT_DESC_AR":"Circle : - A round closed figure whose boundary consists of points equidistant from a fixed point.\u0026lt;br \/\u0026gt;\nRadius : - Line connecting the centre to the outer boundary of circle.\u0026lt;br \/\u0026gt;\nDiameter : - Twice of the radius is diameter of the circle.\u0026lt;br \/\u0026gt;\nCircumference: - Outer boundary of circle.\u0026lt;br \/\u0026gt;\nFormula to calculate circumference is 2\u0026amp;pi;r\u0026lt;br \/\u0026gt;\nArea \u0026amp;nbsp;: - Formula for finding area of circle is \u0026amp;pi;r\u0026lt;sup\u0026gt;2\u0026lt;\/sup\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objectives\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nAt the end of this simulation, you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; define a circle\u0026lt;br \/\u0026gt;\n\u0026amp;bull; identify the radius and diameter of a circle\u0026lt;br \/\u0026gt;\n\u0026amp;bull; calculate the circumference and area of a circle","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300042","TOPIC_ID":"ms300042","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300042.jpg","PUBLIC_BANNER_IMG":"MS300042.jpg","PUBLIC_VIDEO":"pvideo_ms300042.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/xKAEF2qfW3g","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;A circle is defined as a round closed figure whose boundary consists of points equidistant from a fixed point.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Its radius is the line connecting the center to the outer boundary of circle and diameter is twice of the radius. The circumference of a circle is defined as the outer boundary of circle. The formula for calculating circumference is 2\u03c0r and for calculating area is \u03c0r\u00b2.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;At the end of this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Define a circle.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify and define the radius and diameter of a circle.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the circumference and the area of a circle.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Circle","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"228","CATEGORY_ID":"1","CONT_TITLE":"Surface Area of Combined Solids","CONT_SLUG":"surface-area-of-combined-solids","CONT_TITLE_AR":"Surface Area of Combined Solids","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EIf we combine two figures, like a cylinder and a cone or a cone and a hemisphere, we can find the curved surface area of the combined figure by adding the curved surface area of both the constituent figures.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify and calculate the total surface area of combined solids related to cubes, cuboids, cones, hemispheres and cylinders.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Apply mathematical formulas for the surface area of solids related to these concepts.\u003C\/div\u003E","CONT_DESC_AR":"If we combine two figures, like cylinder and cone or cone and hemisphere, we can find the curved surface area by adding the curved surface area of both figures.\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objectives\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nIn this simulation you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; identify and formulate the total surface area of combined solids related to cubes, cuboids, cones, hemispheres and cylinders\u0026lt;br \/\u0026gt;\n\u0026amp;bull; apply mathematical formulas for the surface area of solids related to these concepts","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.hs300021","TOPIC_ID":"hs300021","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300021.jpg","PUBLIC_BANNER_IMG":"hs300021.jpg","PUBLIC_VIDEO":"pvideo_hs300021.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/YCcS1jw1oz4","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;If we combine two figures, like a cylinder and a cone or a cone and a hemisphere, we can find the curved surface area of the combined figure by adding the curved surface area of both the constituent figures.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify and calculate the total surface area of combined solids related to cubes, cuboids, cones, hemispheres and cylinders.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Apply mathematical formulas for the surface area of solids related to these concepts.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Surface Area of Combined Solids","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"221","CATEGORY_ID":"1","CONT_TITLE":"Lines","CONT_SLUG":"lines","CONT_TITLE_AR":"Lines","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA line is defined as a line of points that extend infinitely in two directions. A part of a line that is bounded by two distinct end points is defined as line segment. A ray is defined as a line with one endpoint.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define intersecting lines.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define parallel lines.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define a point.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define rays and line segments.\u003C\/div\u003E","CONT_DESC_AR":"A line is defined as a line of points that extends infinitely in two directions. It has one dimension, length. Points that are on the same line are called collinear points\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objectives\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\nIn this topic, you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; explore intersecting lines\u0026lt;br \/\u0026gt;\n\u0026amp;bull; explore parallel lines\u0026lt;br \/\u0026gt;\n\u0026amp;bull; explore what a point is\u0026lt;br \/\u0026gt;\n\u0026amp;bull; explore rays and line segments","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300045","TOPIC_ID":"ms300045","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300045.jpg","PUBLIC_BANNER_IMG":"MS300045.jpg","PUBLIC_VIDEO":"pvideo_ms300045.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/qsCqLjwf7P8","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;A line is defined as a line of points that extend infinitely in two directions. A part of a line that is bounded by two distinct end points is defined as line segment. A ray is defined as a line with one endpoint.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Define intersecting lines.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Define parallel lines.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Define a point.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Define rays and line segments.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Lines","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"203","CATEGORY_ID":"1","CONT_TITLE":"Three Dimensional Geometric Figures","CONT_SLUG":"three-dimensional-geometric-figures","CONT_TITLE_AR":"Three Dimesional Geometric Figures","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAn object having three dimensions such as height, width and depth is known as a three dimensional object. Few common examples of 3-D figure are cube, cuboid, sphere, prism, pyramid etc.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Differentiate between different types of three dimensional figures.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify their number of vertices.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify their number of edges.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify their number of faces.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify their net shape.\u003C\/div\u003E","CONT_DESC_AR":"Different types of three dimensional figures include: \u0026amp;nbsp;cube,cuboid,sphere,prism,pryamid and etc.\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objectives\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nIn this topic you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; differentiate types of three-dimensional figures\u0026lt;br \/\u0026gt;\n\u0026amp;bull; identify their number of vertices\u0026lt;br \/\u0026gt;\n\u0026amp;bull; identify their number of edges\u0026lt;br \/\u0026gt;\n\u0026amp;bull; identify their number of faces\u0026lt;br \/\u0026gt;\n\u0026amp;bull; identify their net shape","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300038","TOPIC_ID":"ms300038","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300038.jpg","PUBLIC_BANNER_IMG":"MS300038.jpg","PUBLIC_VIDEO":"pvideo_ms300038.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/hDY0cPoKW6o","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;An object having three dimensions such as height, width and depth is known as a three dimensional object. Few common examples of 3-D figure are cube, cuboid, sphere, prism, pyramid etc.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Differentiate between different types of three dimensional figures.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify their number of vertices.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify their number of edges.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify their number of faces.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify their net shape.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Three dimensional geometric figures","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"195","CATEGORY_ID":"1","CONT_TITLE":"Line and Plane of Symmetry","CONT_SLUG":"line-and-plane-of-symmetry","CONT_TITLE_AR":"Line and Plane of Symmetry","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003ESymmetry is defined as the quality of having similar parts that match each other in 2-D shapes or figures. A line of symmetry divides a figure into two mirror-image halves. On the other hand, a plane that divides a 3-D figure into two halves, such that the two halves are mirror images of each other is known as plane of symmetry.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify lines of symmetry and planes of symmetry.\u003C\/div\u003E","CONT_DESC_AR":"Symmetry is the quality of being made up of exactly similar parts facing each other or around an axis.\u0026lt;br \/\u0026gt;\nLine of symmetry: A line which divides a figure into two mirror-image halves.\u0026lt;br \/\u0026gt;\nPlane of symmetry: The plane which divides a 3-D figure into two halves, such that the two halves are mirror images of each other.\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objective\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nIn this simulation, you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; explain line of symmetry and plane of symmetry\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;","BACKING_FILE":"ms300035.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300035","TOPIC_ID":"ms300035","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300035.jpg","PUBLIC_BANNER_IMG":"MS300035.jpg","PUBLIC_VIDEO":"pvideo_ms300035.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/XhsDlCwv9rQ","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Symmetry is defined as the quality of having similar parts that match each other in 2-D shapes or figures. A line of symmetry divides a figure into two mirror-image halves. \u0026amp;nbsp;On the other hand, a plane that divides a 3-D figure into two halves, such that the two halves are mirror images of each other is known as plane of symmetry.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objective\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify lines of symmetry and planes of symmetry.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Line and Plane of Symmetry","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"193","CATEGORY_ID":"1","CONT_TITLE":"Lines and Angles","CONT_SLUG":"lines-and-angles","CONT_TITLE_AR":"Lines and Angles","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA transversal defined as a line or a line segment that intersects two or more other lines or line segments. When a transversal intersects two parallel lines,we will get eight different angles which are classified as corresponding angles, alternate interior angles, alternate exterior angles, vertically opposite angles and linear pair. The corresponding angles, alternate interior angles and alternate exterior angles are equal. The pair of interior angles on the same side of the transversal is supplementary.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify corresponding angles.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify alternate interior angles.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify alternate exterior angles.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify interior angles formed by the transversal.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify exterior angles formed by the transversal.\u003C\/div\u003E","CONT_DESC_AR":"When a transversal intersects two parallel lines, the corresponding angles are equal.\u0026lt;br \/\u0026gt;\nThe alternate exterior angles are equal.\u0026lt;br \/\u0026gt;\nThe pair of interior angles on the same side of the transversal is supplementary.\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objectives\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nIn this simulation you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; identify linear pairs of an angle\u0026lt;br \/\u0026gt;\n\u0026amp;bull; learn the concept of vertical opposite angles, corresponding angles, and alternate interior angles\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300033","TOPIC_ID":"ms300033","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300033.jpg","PUBLIC_BANNER_IMG":"MS300033.jpg","PUBLIC_VIDEO":"pvideo_ms300033.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/VaNpb6114iI","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;A transversal defined as a line or a line segment that intersects two or more other lines or line segments. When a transversal intersects two parallel lines,we will get eight different angles which are classified as corresponding angles, alternate interior angles, alternate exterior angles, vertically opposite angles and linear pair. The corresponding angles, alternate interior angles and alternate exterior angles are equal. The pair of interior angles on the same side of the transversal is supplementary.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify corresponding angles.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify alternate interior angles.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify alternate exterior angles.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify interior angles formed by the transversal.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify exterior angles formed by the transversal.\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Lines and Angles","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"191","CATEGORY_ID":"1","CONT_TITLE":"Introduction to 3 Dimensional Coordinate Planes","CONT_SLUG":"introduction-to-3d-coordinate-plane","CONT_TITLE_AR":"Introduction to 3D Coordinate Plane","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EThree-dimensional space is a geometric setting in which three values are required to determine the position of an element. This is the informal meaning of the term dimension. Three-dimension coordinates in space are (x,y,z), and the distance between two points can be find out with a distance formula.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify three-dimensional coordinates in space.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find the distance between two points in space.\u003C\/div\u003E","CONT_DESC_AR":"A vector is a quantity having direction as well as magnitude.\u003C\/br\u003E\r\nVectors can be added and subtracted, and their magnitudes can also be calculated.\u003C\/br\u003E\u003C\/br\u003E\r\n\u003Cstrong\u003ELearning Objectives\u003C\/strong\u003E\u003C\/br\u003E\u003C\/br\u003E\r\nIn this simulation, you will be able to:\u003C\/br\u003E\r\n\u2022 perform addition and subtraction of vectors\u003C\/br\u003E\r\n\u2022 represent vectors by breaking them\r\ninto x, y or x, y, z components for two or three\r\ndimensions respectively\u003C\/br\u003E\r\n\u2022 calculate the magnitude of a vector in two and three\r\ndimensions\u003C\/br\u003E\r\n\u2022 perform the numerical addition of two vectors","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300005","TOPIC_ID":"ss300005","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300005.jpg","PUBLIC_BANNER_IMG":"SS300005.jpg","PUBLIC_VIDEO":"pvideo_ss300005.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/VfnzYb5HDFA","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Three-dimensional space is a geometric setting in which three values are required to determine the position of an element. This is the informal meaning of the term dimension. Three-dimension coordinates in space are (x,y,z), and the distance between two points can be find out with a distance formula.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify three-dimensional coordinates in space.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Find the distance between two points in space.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Introduction to 3d Coordinate Plane","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"185","CATEGORY_ID":"1","CONT_TITLE":"Area of a Triangle","CONT_SLUG":"area-of-triangle","CONT_TITLE_AR":"Area of Triangle","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA triangle is a closed figure made of three lines. The area of triangle is the half of the area of parallelogram and is calculated by multiplying length of the base with the height of the triangle and then dividing the product by 2.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify and formulate the area of a triangle.\u003C\/div\u003E","CONT_DESC_AR":"A triangle is made of three lines.\u003C\/br\u003E\r\nThere are obtuse, acute, right, scalene, isosceles and equilateral triangles.\u003C\/br\u003E\r\nThe area of each type of triangle is equal to one-half the area of the parallelogram.\u003C\/br\u003E\u003C\/br\u003E\r\n\u003Cstrong\u003ELearning Objective\u003C\/strong\u003E\u003C\/br\u003E\u003C\/br\u003E\r\nIn this topic you will be able to:\u003C\/br\u003E\r\n\u2022 identify and formulate the area of a triangle","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300030","TOPIC_ID":"ms300030","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300030.jpg","PUBLIC_BANNER_IMG":"MS300030.jpg","PUBLIC_VIDEO":"pvideo_ms300030.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/k4vh55iP_fM","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;A triangle is a closed figure made of three lines. The area of triangle is the half of the area of parallelogram and is calculated by multiplying length of the base with the height of the triangle and then dividing the product by 2.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify and formulate the area of a triangle.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Area of Triangle","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"182","CATEGORY_ID":"1","CONT_TITLE":"Pythagorean Theorem","CONT_SLUG":"pythagorean-theorem","CONT_TITLE_AR":"Pythagorean Theorem","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EPythagorean theorem states that the square of the hypotenuse (the side opposite to the right angle) is equal to the sum of the squares of the other two sides in a right triangle. By using this theorem, we can find the length of unknown side if any two side lengths are given.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Explain the Pythagorean theorem.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Use the Pythagorean theorem to find the side lengths of a right triangle.\u003C\/div\u003E","CONT_DESC_AR":"Pythagoras theorem is a fundamental relationship in Euclidean geometry among the three sides of a right triangle.\u0026lt;br \/\u0026gt;\nIt states that the square of the hypotenuse (the side opposite the right angle) is equal to the sum of the squares of the other two sides.\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objectives\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nAt the end of the simulation you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; define the Pythagorean theorem\u0026lt;br \/\u0026gt;\n\u0026amp;bull; use the Pythagorean theorem to find the lengths of the sides of right triangles\u0026lt;br \/\u0026gt;\n\u0026amp;bull; use the Pythagorean theorem to find the areas of right triangles\u0026lt;br \/\u0026gt;\n\u0026amp;bull; apply the Pythagorean theorem to find the perimeter and area of triangles on a grid","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300029","TOPIC_ID":"ms300029","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300029.jpg","PUBLIC_BANNER_IMG":"ms300029.jpg","PUBLIC_VIDEO":"pvideo_ms300029.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/73FuqeMHDv4","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;div\u0026gt;Overview:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Pythagorean theorem states that the square of the hypotenuse (the side opposite to the right angle) is equal to the sum of the squares of the other two sides in a right triangle. By using this theorem, we can find the length of unknown side if any two side lengths are given.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;Learning Objectives:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Explain the Pythagorean theorem.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Use the Pythagorean theorem to find the side lengths of a right triangle.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Pythagorean Theorem","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"},{"CONT_ID":"177","CATEGORY_ID":"1","CONT_TITLE":"Types of Quadrilaterals","CONT_SLUG":"types-of-quadrilaterals","CONT_TITLE_AR":"Types of Quadrilateral","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA quadrilateral is a four sides closed figure. A quadrilateral is called a parallelogram, if both pairs of its opposite sides are parallel. A parallelogram is called a rectangle if all of its angles are right angles. A rhombus is a simple quadrilateral whose four sides are of same length. A square is a quadrilateral, such that it has four equal sides and four equal angles of 90 degrees. A quadrilateral with at least one pair of parallel sides is known as a trapezium. A kite is a quadrilateral whose four sides can be grouped into two pairs of equal length sides that are adjacent to each other.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify a quadrilateral.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Differentiate between different types of quadrilaterals.\u003C\/div\u003E","CONT_DESC_AR":"Different types of quadrilaterals are introduced with a definition and its properties, along with the diagram.\u0026lt;br \/\u0026gt;\nA quadrilateral is called a parallelogram, if both pairs of its opposite sides are parallel.\u0026lt;br \/\u0026gt;\nA parallelogram is called a rectangle if all of its angles are right angles.\u0026lt;br \/\u0026gt;\nA rhombus is a simple quadrilateral whose four sides are of same length.\u0026lt;br \/\u0026gt;\nA square is a quadrilateral, such that it has four equal sides and four equal angles are of 90-degrees.\u0026lt;br \/\u0026gt;\nA quadrilateral with at least one pair of parallel sides is known as a trapezium.\u0026lt;br \/\u0026gt;\nA kite is a quadrilateral whose four sides can be grouped into two pairs of equal-length sides that are adjacent to each other.\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objectives\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nIn this topic you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; explore and identify quadrilaterals\u0026lt;br \/\u0026gt;\n\u0026amp;bull; differentiate types of quadrilater","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ms300028","TOPIC_ID":"ms300028","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_MS300028.jpg","PUBLIC_BANNER_IMG":"ms300028.jpg","PUBLIC_VIDEO":"pvideo_ms300028.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/A_Z3ZAAkY8g","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-05-03 00:00:00","CREATED_BY":"1","UPDATED_ON":"2019-05-03 00:00:00","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;Overview:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;A quadrilateral is a four sides closed figure. A quadrilateral is called a parallelogram, if both pairs of its opposite sides are parallel. A parallelogram is called a rectangle if all of its angles are right angles. A rhombus is a simple quadrilateral whose four sides are of same length. A square is a quadrilateral, such that it has four equal sides and four equal angles of 90 degrees. A quadrilateral with at least one pair of parallel sides is known as a trapezium. A kite is a quadrilateral whose four sides can be grouped into two pairs of equal length sides that are adjacent to each other.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning Objectives:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;After completing this module, you will be able to:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Identify a quadrilateral.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Differentiate between different types of quadrilaterals.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Types of Quadrilaterals","ADMSUBJECT_ID":"1239","ADMCOURSE_ID":"353","DISPLAY_NAME":"","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Geometry","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":null,"SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Middle School Mathematics","COUNTRY_ID":"335","SHORT_NAME":"UCL-New","DOMAIN_NAME":"STEM"}],"levelObject":[],"contData":{"CONT_ID":"767","CATEGORY_ID":"1","CONT_TITLE":"Quadrilaterals","CONT_SLUG":"quadrilaterals","CONT_TITLE_AR":"","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA quadrilateral is a four-sided closed figure. It is called a parallelogram, if both pairs of opposite sides are parallel. A quadrilateral with at least one pair of parallel sides is known as a trapezium or trapezoid. A kite is a quadrilateral whose four sides can be grouped into two pairs of equal length sides that are adjacent to each other.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Ch3\u003ELearning Objectives:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAfter completing this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define the types of quadrilaterals by their sides and angles.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Classify quadrilaterals by their sides and angles.\u003C\/div\u003E","CONT_DESC_AR":"","BACKING_FILE":null,"FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":null,"MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.vm000002","TOPIC_ID":"vm000002","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000002.jpg","PUBLIC_BANNER_IMG":"vm000002.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000002.mp4","PUBLIC_VIDEO_URL":null,"DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2018-08-03 10:27:07","CREATED_BY":"2143","UPDATED_ON":"2024-10-08 08:20:32","UPDATED_BY":"2","CONT_ORDER":"0","X_ROTATION":null,"Y_ROTATION":null,"Z_ROTATION":null,"BG_COLOR":"0x000000","X_POSITION":null,"Y_POSITION":null,"Z_POSITION":null,"TEMP_DESC":"\u0026lt;p\u0026gt;Overview:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;A quadrilateral is a four-sided closed figure. It is called a parallelogram, if both pairs of opposite sides are parallel. A quadrilateral with at least one pair of parallel sides is known as a trapezium or trapezoid. A kite is a quadrilateral whose four sides can be grouped into two pairs of equal length sides that are adjacent to each other.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning Objectives::\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;After completing this module, you will be able to:\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define the types of quadrilaterals by their sides and angles.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Classify quadrilaterals by their sides and angles.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Quadrilaterals","DISPLAY_NAME":"CBSE - Grade 8 - Mathematics","DISPLAY_NAME_AR":"CBSE - Grade 8 - Mathematics","SUBJECT_IMG":"594.jpg","ADMSUBJECT_ID":"594","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"Mathematics","ADMCOURSE_ID":"195","COURSE_NAME":"Grade 8","COUNTRY_ID":"288","STANDARD_ID":"288","SHORT_NAME":"CBSE","LANG_ID":null,"LOCALE_TITLE":null,"LOCALE_DESC":null,"DIR":null,"LANG_NAME":null,"DOMAIN_NAME":"STEM","DOMAIN_DESC":"STEM"},"checkLang":["English - US","\u0639\u0631\u0628\u064a","Espa\u00f1ol","Ti\u1ebfng Vi\u1ec7t"],"devices":["UmetyVR","WebXR"]}