{"pkgId":"22","subjectId":"1345","fullwidthLayout":false,"contentData":{"PACKAGE_NAME":"ICSE Curriculum Full Access","PACKAGE_SLUG":"icse-full","PACKAGE_IMG":"file_603347239_1592483891.png","ADMCOURSE_ID":"383","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","STANDARD_NAME":"ICSE","ADMSUBJECT_ID":"1345","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","CAT_NAME":"Types of Relations","CONT_ID":"757","CONT_TITLE":"Types of Relations","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA relation between two sets is defined as the collection of ordered pairs containing one object from each set. For example, a relation from a set A to a set B is a set of ordered pairs \u003Cx, y\u003E where x is an element of A and y is an element of B. There are three types of relations: reflexive, symmetric, and transitive. A relation that is reflexive, symmetric, and transitive is known as an equivalence relation.\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 reflexive relations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify symmetric relations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify transitive relations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify equivalence relations.\u003C\/div\u003E","CONT_SLUG":"types-of-relations","BACKING_FILE":null,"CONT_SRC":null,"CONTTYPE_ID":"9","PUBLIC_IMG":"thumb_vm000016.jpg","PUBLIC_BANNER_IMG":"vm000016.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000016.mp4","PUBLIC_VIDEO_URL":null,"PACKAGE_DOMAIN":"STEM"},"pkgCourses":[{"ADMCOURSE_ID":"377","COURSE_NAME":"Grade 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For example, a relation from a set A to a set B is a set of ordered pairs \u003Cx, y\u003E where x is an element of A and y is an element of B. There are three types of relations: reflexive, symmetric, and transitive. A relation that is reflexive, symmetric, and transitive is known as an equivalence relation.\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 reflexive relations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify symmetric relations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify transitive relations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify equivalence relations.\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.vm000016","TOPIC_ID":"vm000016","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000016.jpg","PUBLIC_BANNER_IMG":"vm000016.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000016.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":"2019-07-23 10:01:24","CREATED_BY":"2143","UPDATED_ON":"0000-00-00 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 relation between two sets is defined as the collection of ordered pairs containing one object from each set. For example, a relation from a set A to a set B is a set of ordered pairs \u0026amp;lt;x, y\u0026amp;gt; where x is an element of A and y is an element of B. There are three types of relations: reflexive, symmetric, and transitive. A relation that is reflexive, symmetric, and transitive is known as an equivalence relation.\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 and identify reflexive relations.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify symmetric relations.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify transitive relations.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify equivalence relations.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Types of Relations","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"756","CATEGORY_ID":"1","CONT_TITLE":"Relations: Domain and Range","CONT_SLUG":"relations-domain-and-range","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 relation between two sets is defined as the collection of ordered pairs containing one object from each set. For example, a relation from a set A to a set B is a set of ordered pairs \u003Cx, y\u003E where x is an element of A and y is an element of B.\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 Cartesian product.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find Cartesian product of two sets.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define a relation set.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define domain and range of a relation set.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find domain and range of a relation set.\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.vm000015","TOPIC_ID":"vm000015","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000015.jpg","PUBLIC_BANNER_IMG":"vm000015.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000015.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":"2019-07-23 10:01:24","CREATED_BY":"2143","UPDATED_ON":"0000-00-00 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 relation between two sets is defined as the collection of ordered pairs containing one object from each set. For example, a relation from a set A to a set B is a set of ordered pairs \u0026amp;lt;x, y\u0026amp;gt; where x is an element of A and y is an element of B.\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 Cartesian product.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Find Cartesian product of two sets.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define a relation set.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define domain and range of a relation set.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Find domain and range of a relation set.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Relations: Domain and Range","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","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":"2019-07-23 10:01:24","CREATED_BY":"2143","UPDATED_ON":"0000-00-00 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":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"535","CATEGORY_ID":"1","CONT_TITLE":"Solving Two Step Inequalities","CONT_SLUG":"solve-two-step-inequality","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\u003EAn inequality is a sentence built from expressions using one or more of the symbols \r\n\u003C,\u003E, \u2264, or \u2265. Two step inequalities means the system of inequalities which can be solved only in two steps.\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- Solve inequalities in two steps.\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.ss300133","TOPIC_ID":"ss300133","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300133.jpg","PUBLIC_BANNER_IMG":"SS300133.jpg","PUBLIC_VIDEO":"pvideo_ss300133.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/bdkNNR5Anr4","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"0","UPDATED_ON":"0000-00-00 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 inequality is a sentence built from expressions using one or more of the symbols \u0026amp;lt;, \u0026amp;gt;, \u2264, or \u2265. Two step inequalities means the system of inequalities which can be solved only in two steps.\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;- Solve inequalities in two steps.\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":"Solve Two Step Inequality","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"379","CATEGORY_ID":"1","CONT_TITLE":"Introduction to the Integral","CONT_SLUG":"introduction-to-the-integral","CONT_TITLE_AR":"Introduction to the Integral","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EAdding slices of infinitely small width leads us to find the whole. This method is called the limit of sum, which is the basic principle behind integration. Integration can be used to find areas, volumes, central points and many useful things. This module will describe the method of finding the area under a curve, using integration.\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 definite integral as the limit of a sum.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Use definite integrals to find the area between a curve and the x-axis.\u003C\/div\u003E","CONT_DESC_AR":"Integration can be used to find areas, volumes, central points and many useful things.But it is easiest to start with finding the area under the curve of a function.\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 define the definite integral as the limit of a sum\u003C\/br\u003E\r\n\u2022 use definite integrals to find the area between a curve and the x-axis","BACKING_FILE":"ss300015.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300015","TOPIC_ID":"ss300015","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300015.jpg","PUBLIC_BANNER_IMG":"SS300015.jpg","PUBLIC_VIDEO":"pvideo_ss300015.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/kojlvAWPJTk","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;Adding slices of infinitely small width leads us to find the whole. This method is called the limit of sum, which is the basic principle behind integration. Integration can be used to find areas, volumes, central points and many useful things. This module will describe the method of finding the area under a curve, using integration.\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 the definite integral as the limit of a sum.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Use definite integrals to find the area between a curve and the x-axis.\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 the Integral","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"286","CATEGORY_ID":"1","CONT_TITLE":"Functions","CONT_SLUG":"functions","CONT_TITLE_AR":"Functions","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA function is a special relationship where each input has a single output. It is often written as f(x), where x is the input value.\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 domain of a square root function.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find the domain and range of a function from the algebraic form.\u003C\/div\u003E","CONT_DESC_AR":"A function is a relationship between a set of inputs and a set of permissible outputs with the property that each input is related to exactly one output.\u0026lt;br \/\u0026gt;\nAn example is the function that relates each real number x to its square x\u0026lt;sup\u0026gt;2\u0026lt;\/sup\u0026gt;.\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning Objectives\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026amp;nbsp;\u0026lt;br \/\u0026gt;\nIn this simulation, you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; find the domain of a square root function\u0026lt;br \/\u0026gt;\n\u0026amp;bull; find the domain and range of a function from the algebraic form","BACKING_FILE":"ss300081.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300081","TOPIC_ID":"ss300081","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300081.jpg","PUBLIC_BANNER_IMG":"SS300081.jpg","PUBLIC_VIDEO":"pvideo_ss300081.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/ln5podNizPU","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;A function is a special relationship where each input has a single output. It is often written as f(x), where x is the input value.\u0026lt;\/p\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;- Find the domain of a square root function.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Find the domain and range of a function from the algebraic form.\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":"Functions","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"281","CATEGORY_ID":"1","CONT_TITLE":"Relations","CONT_SLUG":"relations","CONT_TITLE_AR":"Relations","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA relation between the two sets is defined as the collection of ordered pairs containing one object from each set. For example, a relation from a set A to a set B is a set of ordered pairs \u003C x, y \u003E, where x is an element of A and y is an element of B.\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 going through this module, you will be able to:\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define a relation.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Differentiate between different types of relations.\u003C\/div\u003E","CONT_DESC_AR":"A relation between two sets is a collection of ordered pairs containing one object from each set.\r\nIf the object x is from the first set and the object y is from the second set, then the objects are said to be related if the ordered pair (x, y) is in the relation.\r\nA function is a type of relation.\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\u25cf define a relation\u003C\/br\u003E\r\n\u25cf differentiate between different types of relation","BACKING_FILE":"ss300080.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300080","TOPIC_ID":"ss300080","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300080.jpg","PUBLIC_BANNER_IMG":"SS300080.jpg","PUBLIC_VIDEO":"pvideo_ss300080.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/i4PXH0iyvS4","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;A relation between the two sets is defined as the collection of ordered pairs containing one object from each set. For example, a relation from a set A to a set B is a set of ordered pairs \u0026amp;lt;x, y\u0026amp;gt;,\u0026amp;nbsp; where x is an element of A and y is an element of B.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;Learning Objectives:\u0026lt;\/p\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After going through this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Define a relation.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Differentiate between different types of relations.\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;\/div\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":"Relations","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"277","CATEGORY_ID":"1","CONT_TITLE":"Linearization and Data Modeling","CONT_SLUG":"linearization-and-data-modeling","CONT_TITLE_AR":"Linearization and Data Modelling","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EData modeling is often the first step in database design and object-oriented programming, as designers first create a conceptual model of how data items relate to each other. Data modeling involves a progression from conceptual model to logical model to physical schema.\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 concept of linearization.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Describe data modeling.\u003C\/div\u003E","CONT_DESC_AR":"Data modeling is often the first step in database design and object-oriented programming as designers first create a conceptual model of how data items relate to each other.\u0026lt;br \/\u0026gt;\nData modeling involves a progression from conceptual model to logical model to physical schema.\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; know about concept of linearization\u0026lt;br \/\u0026gt;\n\u0026amp;bull; know about data modelling","BACKING_FILE":"hs300063.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.hs300063","TOPIC_ID":"hs300063","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300063.jpg","PUBLIC_BANNER_IMG":"HS300063.jpg","PUBLIC_VIDEO":"pvideo_hs300063.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/McM47DumGy4","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;Data modeling is often the first step in database design and object-oriented programming, as designers first create a conceptual model of how data items relate to each other. Data modeling involves a progression from conceptual model to logical model to physical schema.\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 concept of linearization.\u0026amp;nbsp;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Describe data modeling.\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":"Linearization and Data Modeling","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"271","CATEGORY_ID":"1","CONT_TITLE":"Composite Functions","CONT_SLUG":"composite-functions","CONT_TITLE_AR":"Composite Functions","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EFunction Composition is the applying of one function to the results of another.\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003E(g \u00ba f)(x) = g(f(x)),\u003C\/div\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EFor representing this, we substitute f(x) in place of x in g(x) and the resultant function is composite function. Some functions can be decomposed into two (or more) simpler functions.\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 the composition of two functions.\u003C\/div\u003E","CONT_DESC_AR":"Function Composition is applying one function to the results of another. (g \u0026amp;ordm; f)(x) = g(f(x)),\u0026lt;br \/\u0026gt;\nFor representing this , we substitute f(x) in place of x in g(x) and the resultant function is composite function.\u0026lt;br \/\u0026gt;\nSome functions can be de-composed into two (or more) simpler functions.\u0026lt;br \/\u0026gt;\n\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- identify the composition of two functions","BACKING_FILE":"ss300048.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300048","TOPIC_ID":"ss300048","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300048.jpg","PUBLIC_BANNER_IMG":"SS300048.jpg","PUBLIC_VIDEO":"pvideo_ss300048.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/ZXaDs07rbYE","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;Function Composition is the applying of one function to the results of another.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;(g \u00ba f)(x) = g(f(x)),\u0026amp;nbsp;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;For representing this, we substitute f(x) in place of x in g(x) and the resultant function is composite function. Some functions can be decomposed into two (or more) simpler functions.\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 the composition of two functions.\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":"Composite Functions","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"267","CATEGORY_ID":"1","CONT_TITLE":"Scatter Plot","CONT_SLUG":"scatter-plot","CONT_TITLE_AR":"Scatter Plot","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EScatter plot is a graph of plotted points that show the relationship between two sets of data. It is defined as a set of points plotted on a horizontal and vertical axis. The graph can depict the extent of correlation between the values of observed quantities or phenomena.\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 scatter plot.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define positive and negative associations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Create a scatter plot.\u003C\/div\u003E","CONT_DESC_AR":"The scatter diagram graphs pairs of numerical data, with one variable on each axis, to look for a relationship between them. Or we can say in a Scatter (XY) Plot the\u0026amp;nbsp;points shows the relationship between two sets of data.\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\n\u0026lt;strong\u0026gt;Learning objective\u0026lt;\/strong\u0026gt;\u0026lt;br \/\u0026gt;\n\u0026lt;br \/\u0026gt;\nAt the end of this simulation, you will be familiar with\u0026lt;br \/\u0026gt;\n- scatter plot graph","BACKING_FILE":"hs300053.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.hs300053","TOPIC_ID":"hs300053","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300053.jpg","PUBLIC_BANNER_IMG":"HS300053.jpg","PUBLIC_VIDEO":"pvideo_hs300053.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/J9k05vryu-s","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;Scatter plot is a graph of plotted points that show the relationship between two sets of data. It is defined as a set of points plotted on a horizontal and vertical axis. The graph can depict the extent of correlation between the values of observed quantities or phenomena.\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 scatter plot.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Define positive and negative associations.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Create a scatter plot.\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":"Scatter Plot","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"265","CATEGORY_ID":"1","CONT_TITLE":"Linear Function, Domain and Range","CONT_SLUG":"linear-function-domain-and-range","CONT_TITLE_AR":"Linear Function, Domain and Range","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EThe domain of a function is the complete set of possible values of the independent variable. In plain English, this definition means: the domain is the set of all possible x-values which will make the function work, and will output real y-values.\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 find the domain of a function.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Identify and find the range of a function.\u003C\/div\u003E","CONT_DESC_AR":"The domain of a function is the complete set of possible values of the independent variable.\u0026lt;br \/\u0026gt;\nIn plain English, this definition means: The domain is the set of all possible x-values which will make the function \u0026amp;quot;work\u0026amp;quot;, and will output real y-values.\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 topic you will be able to:\u0026lt;br \/\u0026gt;\n\u0026amp;bull; find the domain and range of a function graphically","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.hs300051","TOPIC_ID":"hs300051","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_HS300051.jpg","PUBLIC_BANNER_IMG":"HS300051.jpg","PUBLIC_VIDEO":"pvideo_hs300051.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/0x50NsVhW4w","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;The domain of a function is the complete set of possible values of the independent variable. In plain English, this definition means: the domain is the set of all possible x-values which will make the function work, and will output real y-values.\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;- Identify and find the domain of a function.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Identify and find the range of a function.\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":"Linear Functions, Domain and Range","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"263","CATEGORY_ID":"1","CONT_TITLE":"Rate of Change","CONT_SLUG":"rate-of-change","CONT_TITLE_AR":"Rate of Change","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003ERate of change is defined as the value that results from dividing the change in a function of a variable by the change in the variable. The average rate of change in any function calculates the amount of change in one item divided by the corresponding amount of change in another.\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 rate of change of a function from the given table and graph.\u003C\/div\u003E","CONT_DESC_AR":"Slope and Rate of Change.\u003C\/br\u003E\r\nThe word slope (gradient, incline, pitch) is used to describe the measurement of the steepness of a straight line.\u003C\/br\u003E\r\nThe higher the slope, the steeper the line.\u003C\/br\u003E\r\nThe slope of a line is a rate of change\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 calculate the rate of change of a linear function from the given information as set of ordered pairs, a table, or a graph","BACKING_FILE":"ss300050.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300050","TOPIC_ID":"ss300050","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300050.jpg","PUBLIC_BANNER_IMG":"SS300050.jpg","PUBLIC_VIDEO":"pvideo_ss300050.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/-lYGscxM51k","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;Rate of change is defined as the value that results from dividing the change in a function of a variable by the change in the variable. The average rate of change in any function calculates the amount of change in one item divided by the corresponding amount of change in another.\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;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the rate of change of a function from the given table and graph.\u0026lt;\/div\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":"Rate of Change","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"258","CATEGORY_ID":"1","CONT_TITLE":"Waiting Time Distribution","CONT_SLUG":"waiting-time-distribution","CONT_TITLE_AR":"Waiting Time Distribution","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003ETo explain the concept of waiting time distribution, we use lambda where Lambda is the number of events per unit time. A graph of exponential distribution, called the probability density function (PDF), shows the distribution of time (or distance) between events. The PDF is specified in terms of lambda (events per unit time) and x (time).\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 the concept of waiting time distribution.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find the expected value for the game of chance.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Find the expected mean for the game of chance.\u003C\/div\u003E","CONT_DESC_AR":"To explain the Concept of waiting time distribution, we use lambda where Lambda is the number of events per unit time.\u0026lt;br \/\u0026gt;\nA graph of exponential distribution, called the probability density function (PDF), shows the distribution of time (or distance) between events.\u0026lt;br \/\u0026gt;\nThe PDF is specified in terms of lambda (events per unit time) and x (time).\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 the concept of waiting time distribution\u0026lt;br \/\u0026gt;\n\u0026amp;bull; find the expected value for games of chance\u0026lt;br \/\u0026gt;\n\u0026amp;bull; find the expected mean for games of chance","BACKING_FILE":"ss300079.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300079","TOPIC_ID":"ss300079","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300079.jpg","PUBLIC_BANNER_IMG":"SS300079.jpg","PUBLIC_VIDEO":"pvideo_ss300079.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/cNBFkGe5qeY","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"6","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;To explain the concept of waiting time distribution, we use lambda where Lambda is the number of events per unit time. A graph of exponential distribution, called the probability density function (PDF), shows the distribution of time (or distance) between events. The PDF is specified in terms of lambda (events per unit time) and x (time).\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 the concept of waiting time distribution.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Find the expected value for the game of chance.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Find the expected mean for the game of chance.\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":"Waiting Time Distribution","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"Higher Education"},{"CONT_ID":"256","CATEGORY_ID":"1","CONT_TITLE":"Solving a System of Equations Using the Matrix Method","CONT_SLUG":"solving-system-of-equations-by-matrix-method","CONT_TITLE_AR":"Solving System of Equations by Matrix Method","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EWe are already familiar with the method of solving system of equations in two variables. But what if we have system of equations with three variables. In such situations, matrix method is the easiest method to get the value of variables. In this method, we have a variable matrix (X), a coefficient matrix (A) and a constant matrix (B). The matrix equation used to get the value of variable is X=A-1B.\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 concept of solving a system of equations by the matrix method.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Explain this method in relatable terms.\u003C\/div\u003E","CONT_DESC_AR":"The Matrix Solution.\u003C\/br\u003E\r\nThis states that we can find the values of x, y and z (the X matrix) by multiplying the inverse of the A matrix by the B matrix. First, we need to find the inverse of the A matrix.\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 know the concept of solving system of equations by matrix method\u003C\/br\u003E\r\n\u2022 explain it in real life terms","BACKING_FILE":"ss300078.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300078","TOPIC_ID":"ss300078","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300078.jpg","PUBLIC_BANNER_IMG":"SS300078.jpg","PUBLIC_VIDEO":"pvideo_ss300078.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/uLyaKm4YSIQ","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"6","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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;We are already familiar with the method of solving system of equations in two variables. But what if we have system of equations with three variables. In such situations, matrix method is the easiest method to get the value of variables. In this method, we have a variable matrix (X), a coefficient matrix (A) and a constant matrix (B). The matrix equation used to get the value of variable is X=A-1B.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;\u0026lt;br\u0026gt;\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;- Explain the concept of solving a system of equations by the matrix method.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Explain this method in relatable terms.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;div\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;\/div\u0026gt;\u0026lt;\/div\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":"Solving System of Equations by Matrix Method","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"Higher Education"},{"CONT_ID":"207","CATEGORY_ID":"1","CONT_TITLE":"Solving a System of Inequalities Graphically","CONT_SLUG":"solving-system-of-inequalities-graphically","CONT_TITLE_AR":"Solving System of Inequalities Graphically","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA linear inequality is an inequality which involves a linear function. A linear inequality contains one of the symbols of inequality: \u003C is less than, \u003E is greater than, \u2264 is less than or equal to, \u2265 is greater than or equal to. Linear inequality in two variables can be solved in a similar manner as we solve linear inequality.\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 concept of inequality.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Distinguish between graphs of inequalities.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Solve a system of linear inequalities graphically.\u003C\/div\u003E","CONT_DESC_AR":"A linear inequality is an inequality which involves a linear function.\u003C\/br\u003E\r\nA linear inequality contains one of the symbols of inequality: \u003C is less than, \u003E is greater than, \u2264 is less than or equal to.\u003C\/br\u003E\r\nLinear inequality in two variables can be solved in a similar manner as we solve system of linear equations.\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 explain the concept of inequality\u003C\/br\u003E\r\n\u2022 distinguish between the graphs of inequalities\u003C\/br\u003E\r\n\u2022 solve the system of linear inequalities graphically","BACKING_FILE":"ss300049.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300049","TOPIC_ID":"ss300049","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300049.jpg","PUBLIC_BANNER_IMG":"SS300049.jpg","PUBLIC_VIDEO":"pvideo_ss300049.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/H6wES_wtrQ4","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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 linear inequality is an inequality which involves a linear function. A linear inequality contains one of the symbols of inequality: \u0026amp;lt; is less than, \u0026amp;gt; is greater than, \u2264 is less than or equal to, \u2265 is greater than or equal to. Linear inequality in two variables can be solved in a similar manner as we solve linear inequality.\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 concept of inequality.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Distinguish between graphs of inequalities.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Solve a system of linear inequalities graphically.\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":"Solving System of Inequalities Graphically","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"199","CATEGORY_ID":"1","CONT_TITLE":"Matrices","CONT_SLUG":"matrices","CONT_TITLE_AR":"Matrices","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA matrix is a rectangular array of numbers, symbols, or expressions, arranged in rows and columns. Matrices can be added, subtracted and multiplied. There are different types of matrices: row matrix, column matrix, identity matrix, zero matrix, diagonal matrix, symmetric matrix and skew symmetric matrix.\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- Create a matrix.\u003C\/div\u003E \r\n\u003Cdiv\u003E- List types of matrices.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Transpose a matrix.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Distinguish between a symmetric and a skew symmetric matrices.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Perform operations on a matrix.\u003C\/div\u003E","CONT_DESC_AR":"A matrix is a rectangular array of numbers, symbols, or expressions, arranged in rows and columns.\u0026lt;br \/\u0026gt;\nMatrices can be added, subtracted and multiplied.\u0026lt;br \/\u0026gt;\nThere are different types of matrices: row matrix, column matrix, identity matrix, zero matrix, diagonal matrix, symmetric matrix and skew symmetric matrix.\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; create a matrix\u0026lt;br \/\u0026gt;\n\u0026amp;bull; list types of matrices\u0026lt;br \/\u0026gt;\n\u0026amp;bull; transpose a matrix\u0026lt;br \/\u0026gt;\n\u0026amp;bull; distinguish between symmetric and skew symmetric matrices\u0026lt;br \/\u0026gt;\n\u0026amp;bull; perform operations on a matrix","BACKING_FILE":"ss300009.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300009","TOPIC_ID":"ss300009","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300009.jpg","PUBLIC_BANNER_IMG":"SS300009.jpg","PUBLIC_VIDEO":"pvideo_ss300009.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/aCPP3rt6pYM","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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 matrix is a rectangular array of numbers, symbols, or expressions, arranged in rows and columns. Matrices can be added, subtracted and multiplied. There are different types of matrices: row matrix, column matrix, identity matrix, zero matrix, diagonal matrix, symmetric matrix and skew symmetric matrix.\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;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Create a matrix.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- List types of matrices.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Transpose a matrix.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Distinguish between a symmetric and a skew symmetric matrices.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Perform operations on a matrix.\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":"Matrices","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"196","CATEGORY_ID":"1","CONT_TITLE":"Graphing Linear Inequalities in One Variable","CONT_SLUG":"graphing-linear-inequalities-in-one-variable","CONT_TITLE_AR":"Graphing Linear Inequalities in One Variable","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA linear inequality in one variable is defined as an algebraic statement that relates a linear expression (with one variable) with a constant by \u003E, \u003C, \u2265, and \u2264 sign instead of =. For example, x \u2264 5. x + 3 \u003E \u2212 9. a \u2265 \u2212 11. \u003C\/div\u003E \r\n\u003Cdiv\u003EThe graph of a linear inequality in one variable is a number line in which we use open circle for \u003C and \u003E and a closed circle for \u2264 and \u2265. \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 an inequality in one variable.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Relate a linear equation with a linear inequality in one variable.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Use different methods of graphing an inequality in one variable to find its solution.\u003C\/div\u003E","CONT_DESC_AR":"A linear inequality is an inequality which involves a linear function.\u003C\/br\u003E\r\nA linear inequality contains one of the symbols of inequality, \u003C is less than,  \u003E is greater than.\u003C\/br\u003E\r\n\u2264 is less than or equal to.\u003C\/br\u003E\r\nA linear inequality in one variable can be solved in a similar way as we solved a linear equation with one variable.\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 define inequality\u003C\/br\u003E\r\n\u2022 relate linear equations with linear inequality\u003C\/br\u003E\r\n\u2022 use different methods of graphing inequality in one variable to find its solution","BACKING_FILE":"ss300007.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300007","TOPIC_ID":"ss300007","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300007.jpg","PUBLIC_BANNER_IMG":"SS300007.jpg","PUBLIC_VIDEO":"pvideo_ss300007.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/ZXP9i7B47ec","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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 linear inequality in one variable is defined as an algebraic statement that relates a linear expression (with one variable) with a constant by \u0026amp;gt;, \u0026amp;lt;, \u2265, and \u2264\u0026amp;nbsp; sign instead of\u0026amp;nbsp; =. For example, x \u2264 5. x + 3 \u0026amp;gt; \u2212 9. a \u2265 \u2212 11.\u0026amp;nbsp;\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;The graph of a linear inequality in one variable is a number line in which we use open circle for \u0026amp;lt; and \u0026amp;gt; and a closed circle for \u2264 and \u2265.\u0026amp;nbsp;\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;- Define an inequality in one variable.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Relate a linear equation with a linear inequality in one variable.\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Use different methods of graphing an inequality in one variable to find its solution.\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":"Graphing Linear Inequalities in One Variable","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"},{"CONT_ID":"186","CATEGORY_ID":"1","CONT_TITLE":"Introduction to Vectors","CONT_SLUG":"introduction-to-vectors","CONT_TITLE_AR":"Introduction to Vectors","CONT_DESC":"\u003Ch3\u003EOverview:\u003C\/h3\u003E \r\n\u003Cdiv\u003E \r\n \u003Cbr\u003E \r\n\u003C\/div\u003E \r\n\u003Cdiv\u003EA vector is a quantity having direction as well as magnitude. Vectors can be added and subtracted, and their magnitudes can also be calculated. \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- Add and subtract vectors\u003C\/div\u003E \r\n\u003Cdiv\u003E- Represent a vector in space\u003C\/div\u003E \r\n\u003Cdiv\u003E- Calculate the magnitude of a vector.\u003C\/div\u003E","CONT_DESC_AR":"A vector is a quantity having direction as well as magnitude.\u0026lt;br \/\u0026gt;\nVectors can be added and subtracted, and their magnitudes can also be calculated.\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; perform addition and subtraction of vectors\u0026lt;br \/\u0026gt;\n\u0026amp;bull; represent vectors by breaking them\u0026lt;br \/\u0026gt;\ninto x, y or x, y, z components for two or three\u0026lt;br \/\u0026gt;\ndimensions respectively\u0026lt;br \/\u0026gt;\n\u0026amp;bull; calculate the magnitude of a vector in two and three\u0026lt;br \/\u0026gt;\ndimensions\u0026lt;br \/\u0026gt;\n\u0026amp;bull; perform the numerical addition of two vectors","BACKING_FILE":"ss300003.apk","FILE_UID":null,"SCORM_COURSE_ID":null,"CONT_SRC":"","MOD_FILES":null,"FOLDER_NAME":null,"CONTTYPE_ID":"9","ANDROID_PKG":"com.umety.vr.ss300003","TOPIC_ID":"ss300003","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_SS300003.jpg","PUBLIC_BANNER_IMG":"ss300003.jpg","PUBLIC_VIDEO":"pvideo_ss300003.mp4","PUBLIC_VIDEO_URL":"https:\/\/youtu.be\/-4_wqM20-kM","DIST":null,"SHOW_ON_HOME":"N","CONTROLLER_REQUIRED":"Y","DOMAIN":"3","CONCEPT":"0","STATUS":"A","EXPIRY_DAYS":null,"CREATED_ON":"2019-07-23 10:01:24","CREATED_BY":"1","UPDATED_ON":"0000-00-00 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 vector is a quantity having direction as well as magnitude. Vectors can be added and subtracted, and their magnitudes can also be calculated.\u0026amp;nbsp;\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;\u0026lt;div\u0026gt;After completing this module, you will be able to:\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Add and subtract vectors\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Represent a vector in space\u0026lt;\/div\u0026gt;\u0026lt;div\u0026gt;- Calculate the magnitude of a vector.\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 Vectors","ADMSUBJECT_ID":"1345","ADMCOURSE_ID":"383","DISPLAY_NAME":"Mathematics","DISPLAY_NAME_AR":"","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","SUBJECT_DESC":"Description","SUBJECT_DESC_AR":"","SUBJECT_IMG":"","SUBJECT_BANNER_IMG":null,"SUBJECT_PRICE":null,"IS_FEATURED":"N","COURSE_NAME":"Grade 12","COUNTRY_ID":"342","SHORT_NAME":"ICSE","DOMAIN_NAME":"STEM"}],"levelObject":[],"contData":{"CONT_ID":"757","CATEGORY_ID":"1","CONT_TITLE":"Types of Relations","CONT_SLUG":"types-of-relations","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 relation between two sets is defined as the collection of ordered pairs containing one object from each set. For example, a relation from a set A to a set B is a set of ordered pairs \u003Cx, y\u003E where x is an element of A and y is an element of B. There are three types of relations: reflexive, symmetric, and transitive. A relation that is reflexive, symmetric, and transitive is known as an equivalence relation.\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 reflexive relations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify symmetric relations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify transitive relations.\u003C\/div\u003E \r\n\u003Cdiv\u003E- Define and identify equivalence relations.\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.vm000016","TOPIC_ID":"vm000016","IS_PUBLISH":"Y","IS_PUBLIC":"Y","CONT_PRICE":null,"PUBLIC_IMG":"thumb_vm000016.jpg","PUBLIC_BANNER_IMG":"vm000016.jpg","PUBLIC_VIDEO":"en_us_pvideo_vm000016.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":"2018-08-02 13:04:12","CREATED_BY":"2143","UPDATED_ON":"2024-10-08 12:05:26","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 relation between two sets is defined as the collection of ordered pairs containing one object from each set. For example, a relation from a set A to a set B is a set of ordered pairs \u0026amp;lt;x, y\u0026amp;gt; where x is an element of A and y is an element of B. There are three types of relations: reflexive, symmetric, and transitive. A relation that is reflexive, symmetric, and transitive is known as an equivalence relation.\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 and identify reflexive relations.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify symmetric relations.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify transitive relations.\u0026lt;\/p\u0026gt;\u0026lt;p\u0026gt;- Define and identify equivalence relations.\u0026lt;\/p\u0026gt;","IS_ANALYTICS":"Y","VR_ENABLE":"Y","VR_SESSION_ENABLE":"Y","YOUTUBE_URL":null,"CONT_TYPE":"VR Module","CAT_NAME":"Types of Relations","DISPLAY_NAME":"CBSE - Grade 12 - Mathematics","DISPLAY_NAME_AR":"","SUBJECT_IMG":"","ADMSUBJECT_ID":"883","SUBJECT_NAME":"Mathematics","SUBJECT_NAME_AR":"","ADMCOURSE_ID":"199","COURSE_NAME":"Grade 12","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"]}