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~Course Details~
CBSE Standard Nine
The Course contains fully animated syllabus of CBSE Board Class 9
COURSE DESCRIPTION
The course contains teachings of subject matter experts and master teachers who have covered all aspects of the subject in great details thereby simplifying concepts to ensure a better understanding & learning outcome. This supported by clips & story board ensures student engagement with an effective learning outcome & better knowledge retention. The content also incorporates interactive assessment modules which provides students with a tool to revise & to assess their understanding of the subject & concepts. Structured on Houghton Mifflin standards with pedagogy based high impact animated content with graphics, illustrations & videos. In this course you can learn Science subject with topics Animal Tissuse, Atoms And Molecules-I, Atoms and Molecules-II, Cell and its Stucture, Diversity in living Organisms-I, Diversity in Living Organisms-I, Force And Laws Of Motion, Gravitation and many more. And Math subject with topics Areas Of Parallelograms and triangles, Circle, Constructions, Coordinate Geometry, Euclids Geometry, Herons Formula Linear Equations In Two Variables and many more.
CURRICULUM
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Subject 1: Science
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Chapter 1.1: Animal Tissues
- 1.1.1: Introduction
- 1.1.2: Objectives
- 1.1.3: Objectives
- 1.1.4: Epithelial Tissue
- 1.1.5: Types of Epithelial Tissue
- 1.1.6: Functions of Epithelial Tissue
- 1.1.7: Connective Tissue
- 1.1.8: Types of Connective Tissue
- 1.1.9: Activity
- 1.1.10: Muscular Tissue
- 1.1.11: Types of Muscular Tissue
- 1.1.12: Functions of Muscular Tissue
- 1.1.13: Nervous Tissue
- 1.1.14: Functions of Nervous Tissue
- 1.1.15: Summary
- 1.1.16: mcq_1.1
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Chapter 1.2: Atoms and Molecules-I
- 1.2.1: Introduction
- 1.2.2: Introduction
- 1.2.3: Objectives
- 1.2.4: Laws of Chemical Combination
- 1.2.5: Laws of Conservation of Mass
- 1.2.6: Laws of Constant Proportions
- 1.2.7: Dalton Atomic Theory
- 1.2.8: Atoms
- 1.2.9: Symbols of Atoms of Different Elements
- 1.2.10: Symbols of Atoms of Different Elements
- 1.2.11: Molecule
- 1.2.12: Atomicity of Elements
- 1.2.13: Molecules of Compounds
- 1.2.14: Summary
- 1.2.15: mcq_1.2
- Chapter 1.3: Atoms and Molecules-II
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Chapter 1.4: Cell and its structure
- 1.4.1: Introduction
- 1.4.2: Objectives
- 1.4.3: Introduction of Cell
- 1.4.4: Discovery Cell
- 1.4.5: Notable Scientists
- 1.4.6: Types of Organism
- 1.4.7: Plasma Membraine and its Functions
- 1.4.8: Plasma Membraine and its Functions
- 1.4.9: Plasma Membraine and its Functions
- 1.4.10: Cell Wall and its Functions
- 1.4.11: Nucleus and its Functions
- 1.4.12: Cytoplasm and its Functions
- 1.4.13: Summary
- 1.4.14: Summary
- 1.4.15: mcq_1.4
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Chapter 1.5: Diversity in living organisms-I
- 1.5.1: Introduction
- 1.5.2: Activity
- 1.5.3: Objectives
- 1.5.4: Basis of Classification
- 1.5.5: Classification and Evolution
- 1.5.6: Biodiversity
- 1.5.7: The Hiearachy of Classification-Groups
- 1.5.8: Kingdom Monera
- 1.5.9: Kingdom Protista
- 1.5.10: Kingdom Fungi
- 1.5.11: Kingdom Plantae
- 1.5.12: Division of Kingdom Plantae
- 1.5.13: Division Thallophyta
- 1.5.14: Division Bryophyta
- 1.5.15: Division Pteridophyta
- 1.5.16: Division Gymnosperms
- 1.5.17: Division Angiosperms
- 1.5.18: Summary
- 1.5.19: Summary
- 1.5.20: mcq_1.5
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Chapter 1.6: Diversity in living organisms-II
- 1.6.1: Introduction
- 1.6.2: Objectives
- 1.6.3: Phylum Porifera
- 1.6.4: Phylum Coelenterata
- 1.6.5: Phylum Plathyhrlminthes
- 1.6.6: Phylum Nematoda or Nemanthelminthes
- 1.6.7: Phylum Arthropoda
- 1.6.8: Phylum Mollusca
- 1.6.9: Phylum Veterbrata
- 1.6.10: Class Pisces
- 1.6.11: Class Amphibia
- 1.6.12: Class Repetilia
- 1.6.13: Class Aves
- 1.6.14: Class Mammalia
- 1.6.15: Momenclature
- 1.6.16: Summary
- 1.6.17: Summary
- 1.6.18: mcq_1.6
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Chapter 1.7: Force and Laws of Motion
- 1.7.1: Introduction
- 1.7.2: Objectives
- 1.7.3: Force and its types
- 1.7.4: Newtons First Law of Motion
- 1.7.5: Application of Newtons First Law of Motion
- 1.7.6: Newtons Second Law of Motion
- 1.7.7: Application of Newtons Second Law of Motion
- 1.7.8: Momentum
- 1.7.9: Formulation of Second Law of Motion
- 1.7.10: Newtons Third Law of Motion
- 1.7.11: Examples to illustrate Newtons Third Law of Motion
- 1.7.12: Law of Conservation of Momentum
- 1.7.13: Summary
- 1.7.14: mcq_1.7
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Chapter 1.8: Gravitation
- 1.8.1: Introduction
- 1.8.2: Objectives
- 1.8.3: Force of Gravitation
- 1.8.4: Centripetal Force
- 1.8.5: Universal Law of Gravitation
- 1.8.6: Unit and Value of Gravitational Constant
- 1.8.7: Free Fall
- 1.8.8: Difference between Weight and Mass
- 1.8.9: Equation of Motion for Freely Falling Bodies
- 1.8.10: Thrust and Pressure
- 1.8.11: Uses of Pressure in Everyday life
- 1.8.12: Buoyancy
- 1.8.13: Archimedes Principle
- 1.8.14: Summary
- 1.8.15: mcq_1.8
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Chapter 1.9: Improvement in Food Resources-I
- 1.9.1: Introduction
- 1.9.2: Objectives
- 1.9.3: Objectives
- 1.9.4: Improvement in Crop Yields
- 1.9.5: Rabi and Kharif Crops
- 1.9.6: Crop Production Management
- 1.9.7: Crop Production Management
- 1.9.8: Factors for crop Variety Improvement
- 1.9.9: Nutrient Management
- 1.9.10: Manure
- 1.9.11: Fertilizers
- 1.9.12: Organic Farming
- 1.9.13: Irrigation
- 1.9.14: Cropping Patterns
- 1.9.15: Storage of Grains
- 1.9.16: Storage of Grains
- 1.9.17: Summary
- 1.9.18: Summary
- 1.9.19: mcq_1.9
- Chapter 1.10: Improvement in Food Resources-II
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Chapter 1.11: Is Matter around us Pure-I
- 1.11.1: Introduction
- 1.11.2: Objectives
- 1.11.3: Classification of Matter
- 1.11.4: Compound and Phase
- 1.11.5: Homogenous Materials and Mixtures
- 1.11.6: Solutions
- 1.11.7: Heterogenous Mixtures
- 1.11.8: Element
- 1.11.9: Compounds
- 1.11.10: Compounds
- 1.11.11: Mixtures
- 1.11.12: Heterogenous and Homogenous Mixtures
- 1.11.13: Activity
- 1.11.14: Activity
- 1.11.15: Types of Solutions
- 1.11.16: Properties of Solutions
- 1.11.17: Suspension
- 1.11.18: Colloids
- 1.11.19: Tyndall Effect
- 1.11.20: Separation of Mixture and Two Immiscible Liquids
- 1.11.21: Separation of Two Miscible Liquids
- 1.11.22: Sublimation
- 1.11.23: Crystallisation
- 1.11.24: Physical Change
- 1.11.25: Chemical Change
- 1.11.26: Summary
- 1.11.27: Summary
- 1.11.28: mcq_1.11
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Chapter 1.12: Is Matter around us Pure-II
- 1.12.1: Introduction
- 1.12.2: Objectives
- 1.12.3: Classification of Mixtures
- 1.12.4: Pure Substances and Mixtures
- 1.12.5: Differences between Pure Substance and Mixture
- 1.12.6: Types of Mixtures
- 1.12.7: True Solutions and its properties
- 1.12.8: Colloidal Solution
- 1.12.9: Properties of Colloidal Solution
- 1.12.10: Suspension and it's Properties
- 1.12.11: Tyndall Effect
- 1.12.12: Concentration of solution
- 1.12.13: Separating the Components of a mixture
- 1.12.14: Evaporation
- 1.12.15: Centrifugation
- 1.12.16: Decantation using Separating Funnel
- 1.12.17: Summary
- 1.12.18: mcq_1.12
- Chapter 1.13: Is Matter Around Us Pure-III
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Chapter 1.14: Matter In our Surroundings
- 1.14.1: Introduction
- 1.14.2: Objectives
- 1.14.3: Physical Nature of Matter
- 1.14.4: Characteristics of Particles of Matter
- 1.14.5: Characteristics of Particles of Matter
- 1.14.6: Characteristics of Particles of Matter
- 1.14.7: Types of Matter
- 1.14.8: The Effect of Temperature
- 1.14.9: The Effect of Pressure
- 1.14.10: Summary
- 1.14.11: Summary
- 1.14.12: mcq_1.14
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Chapter 1.15: Motion
- 1.15.1: Introduction
- 1.15.2: Objectives
- 1.15.3: Understanding Motion
- 1.15.4: Motion along a straight Line
- 1.15.5: Uniform motion and Non-Uniform motion
- 1.15.6: Speed
- 1.15.7: Speed with Direction
- 1.15.8: Rate of change of velocity
- 1.15.9: Example
- 1.15.10: Graphical Representation of Motion
- 1.15.11: Distance Time Graphs
- 1.15.12: Velocity-Time Graphs
- 1.15.13: Equations of Motion by Graphical Method
- 1.15.14: Equations for Velocity-Time Relation
- 1.15.15: Equations for Position-Time Relation
- 1.15.16: Equations for Position-Velocity Relation
- 1.15.17: Uniform Circular Motion
- 1.15.18: Summary
- 1.15.19: Summary
- 1.15.20: mcq_1.15
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Chapter 1.16: Natural_Resouces_I
- 1.16.1: Introduction
- 1.16.2: Objectives
- 1.16.3: The Breath of Air
- 1.16.4: The role of the Atmosphere in Climate Control
- 1.16.5: The Movement of Air:Winds
- 1.16.6: The Movement of Air:Winds
- 1.16.7: Rain
- 1.16.8: Water:A Wonder Liquid
- 1.16.9: Importance of Water
- 1.16.10: Air Pollution
- 1.16.11: Water Pollution
- 1.16.12: Summary
- 1.16.13: mcq_1.16
- Chapter 1.17: Natural_Resouces_II
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Chapter 1.18: Sound
- 1.18.1: Introduction
- 1.18.2: Objectives
- 1.18.3: Production of Sound
- 1.18.4: Propogation of Sound
- 1.18.5: Propogation of Sound
- 1.18.6: Sound needs a medium to Travel
- 1.18.7: Sound Waves are Longitudinal Waves
- 1.18.8: Characteristics of a sound Wave
- 1.18.9: Characteristics of a sound Wave
- 1.18.10: Speed of Sound in Different Media
- 1.18.11: Reflection of Sound
- 1.18.12: Reverberation
- 1.18.13: Range of Hearing
- 1.18.14: Application of Ultrasound
- 1.18.15: Application of Ultrasound
- 1.18.16: SONAR
- 1.18.17: Summary
- 1.18.18: Summary
- 1.18.19: Summary
- 1.18.20: mcq_1.18
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Chapter 1.19: Structure of the Atom
- 1.19.1: Introduction
- 1.19.2: Objectives
- 1.19.3: Atom
- 1.19.4: Isotopes
- 1.19.5: Thomson's Model of an Atom
- 1.19.6: Rutherford's Scattering Experiment
- 1.19.7: Rutherford's Atomic Model
- 1.19.8: Drawback of Rutherford's Nuclear Model of an Atom
- 1.19.9: Bohr's Model of an Atom
- 1.19.10: Electro Distribution in Various shells
- 1.19.11: valency
- 1.19.12: Automatic Number
- 1.19.13: Mass Number
- 1.19.14: structure of the Hydrogen and Oxygen Atom
- 1.19.15: Isotopes
- 1.19.16: Isobars
- 1.19.17: Summary
- 1.19.18: mcq_1.19
- Chapter 1.20: The Cell Organelles
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Chapter 1.21: Tissues
- 1.21.1: Introduction
- 1.21.2: Introduction
- 1.21.3: Objectives
- 1.21.4: Objectives
- 1.21.5: Plant and Animal Tissue
- 1.21.6: Types of Plant Tissue
- 1.21.7: Activity
- 1.21.8: Characters of Meristematic Tissues
- 1.21.9: Types of Meristematic Tissues
- 1.21.10: Functions of Meristematic Tissues
- 1.21.11: Permanent Tissues
- 1.21.12: Characters of Permanent Tissues
- 1.21.13: Activity
- 1.21.14: Types of Permanent Tissues
- 1.21.15: Types of Simple Permanent Tissues
- 1.21.16: Activity
- 1.21.17: Functions of Simple Permanent Tissues
- 1.21.18: Types of complex Permanent Tissues
- 1.21.19: Functions of complex Permanent Tissues
- 1.21.20: Summary
- 1.21.21: mcq_1.21
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Chapter 1.22: Why do we fall ill
- 1.22.1: Introduction
- 1.22.2: Objectives
- 1.22.3: Disease
- 1.22.4: Types of Disease
- 1.22.5: Acute Disease
- 1.22.6: Chronic Disease
- 1.22.7: Congenital Disease
- 1.22.8: Acquired Disease
- 1.22.9: Difference between Communicable and Non-Communicable disease
- 1.22.10: Symptoms of Diseases
- 1.22.11: Principle of Treatment
- 1.22.12: Principle of Prevention
- 1.22.13: Example
- 1.22.14: Summary
- 1.22.15: Summary
- 1.22.16: Summary
- 1.22.17: mcq_1.22
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Chapter 1.23: Work and Energy
- 1.23.1: Introduction
- 1.23.2: Objectives
- 1.23.3: Work
- 1.23.4: Scientific Conception of work
- 1.23.5: Work done by a Constant Force
- 1.23.6: Example
- 1.23.7: Energy
- 1.23.8: Forms of Energy
- 1.23.9: Equations of Kinetic Energy
- 1.23.10: Potential Energy
- 1.23.11: Potential Energy of an Object at a Height
- 1.23.12: Conversion of Energy
- 1.23.13: Laws of Conservation of Energy
- 1.23.14: Rate of doing work
- 1.23.15: Commercial Unit of Energy
- 1.23.16: Summary
- 1.23.17: Summary
- 1.23.18: Example
- 1.23.19: mcq_1.23
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Chapter 1.1: Animal Tissues
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Subject 2: Mathematics
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Chapter 2.1: Areas of Parallelograms and Triangles
- 2.1.1: Introduction
- 2.1.2: Objectives
- 2.1.3: Figures on the same base
- 2.1.4: Figures on the same base between the same parallels
- 2.1.5: Parallelograms on the same base and between the same parallels
- 2.1.6: Converse of Theorem
- 2.1.7: Example
- 2.1.8: Triangles on the same base and between the same parallels
- 2.1.9: Example
- 2.1.10: Example
- 2.1.11: Summary
- 2.1.12: Summary
- 2.1.13: mcq_2.1
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Chapter 2.2: Circle
- 2.2.1: Introduction
- 2.2.2: Objectives
- 2.2.3: Objectives
- 2.2.4: Definitions
- 2.2.5: Interior and Exterior of a circle
- 2.2.6: Chord and Diameter
- 2.2.7: Major Arc and minor Arc
- 2.2.8: circumference,Sector and Segment
- 2.2.9: Angle Subtended by a Chord at a point
- 2.2.10: Theorem
- 2.2.11: Theorem
- 2.2.12: Perpendicular on the Line
- 2.2.13: Equal Chords and their Distances from the center
- 2.2.14: Result and Theorems of Angle Subtended by an Arc of Circle
- 2.2.15: Relationship between the Angles Subtended by an arc at the center and at a point on the circle
- 2.2.16: Angle in Semicircle
- 2.2.17: Angle in the same segment
- 2.2.18: Cyclic Quadrilaterals
- 2.2.19: Summary
- 2.2.20: Summary
- 2.2.21: mcq_2.2
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Chapter 2.3: Constructions
- 2.3.1: Introduction
- 2.3.2: Objectives
- 2.3.3: Definitions
- 2.3.4: Bisector of a given angle
- 2.3.5: Bisector of a given angle
- 2.3.6: Perpendicular Bisector of given line segment
- 2.3.7: Perpendicular Bisector of given line segment
- 2.3.8: Angle of 60
- 2.3.9: Angle of 60
- 2.3.10: Construction of a Triangle
- 2.3.11: Construction of a Triangle
- 2.3.12: Construction of a Triangle
- 2.3.13: Construction of a Triangle
- 2.3.14: Construction of a Triangle
- 2.3.15: Example
- 2.3.16: Summary
- 2.3.17: mcq_2.3
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Chapter 2.4: Coordinate Geometry
- 2.4.1: Introduction
- 2.4.2: Objectives
- 2.4.3: Definition
- 2.4.4: Definition of Coordinate Geometry
- 2.4.5: Cartesian System
- 2.4.6: Terms used in Cartesian System
- 2.4.7: Video-Quadrants
- 2.4.8: Measurement of Perpendicular Distances of a point from Coordinate Axes
- 2.4.9: Finding the Coordinates
- 2.4.10: Ploting of point in coordinate Plane
- 2.4.11: Summary
- 2.4.12: mcq_2.4
- Chapter 2.5: Euclids Geometry
- Chapter 2.6: Herons formula
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Chapter 2.7: Linear Equations in two Variables
- 2.7.1: Introduction
- 2.7.2: Objectives
- 2.7.3: Linear Equations
- 2.7.4: Points for Solving a Linear Equation
- 2.7.5: Linear Equations in Two Variables
- 2.7.6: Example
- 2.7.7: Solution of a Linear Equation
- 2.7.8: Example
- 2.7.9: Graph of Linear Equations in two variables
- 2.7.10: Graph of Linear Equations in two variables
- 2.7.11: Example
- 2.7.12: Drawing Graph
- 2.7.13: Equations of Lines Parallel to the X-axis and Y-axis
- 2.7.14: Example
- 2.7.15: Summary
- 2.7.16: Summary
- 2.7.17: mcq_2.7
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Chapter 2.8: Lines and Angles
- 2.8.1: Introduction
- 2.8.2: Objectives
- 2.8.3: Basic Terms and Definitions
- 2.8.4: Types of Angles I
- 2.8.5: Types of Angles II
- 2.8.6: Intersecting Line and Non-Intersecting Lines
- 2.8.7: Pair of Angles
- 2.8.8: Axiom I
- 2.8.9: Axiom II
- 2.8.10: Theorem I
- 2.8.11: Parallel Lines and a transversal
- 2.8.12: Axiom III
- 2.8.13: Axiom IV and Theorem II
- 2.8.14: Theorem III
- 2.8.15: Theorem IV and V
- 2.8.16: Lines Parallel to the same line
- 2.8.17: Example
- 2.8.18: Angle Sm Property of a triangle
- 2.8.19: Theorem VIII
- 2.8.20: Summary
- 2.8.21: Summary
- 2.8.22: mcq_2.8
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Chapter 2.9: Number Systems
- 2.9.1: Introduction
- 2.9.2: Objectives
- 2.9.3: Number on number line
- 2.9.4: Rational Numbers
- 2.9.5: Irraitional Numbers
- 2.9.6: Irraitional Numbers on Number Line I
- 2.9.7: Irraitional Numbers on Number Line II
- 2.9.8: Decimal Expansion of Real Numbers
- 2.9.9: Decimal Expansion of Real Numbers II
- 2.9.10: Example
- 2.9.11: Representation of Real Number on Number Line
- 2.9.12: Operations on Real Numbers
- 2.9.13: Examples
- 2.9.14: Identities
- 2.9.15: Rationalising the Denominator
- 2.9.16: Laws od Exponents for Real Numbers
- 2.9.17: Examples
- 2.9.18: Summary
- 2.9.19: Summary
- 2.9.20: mcq_2.9
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Chapter 2.10: Polynomials
- 2.10.1: Introduction
- 2.10.2: Objectives
- 2.10.3: Definitions
- 2.10.4: Example
- 2.10.5: Degree of Polynomial
- 2.10.6: Zeroes of Polynomial
- 2.10.7: Example
- 2.10.8: Example
- 2.10.9: Remainder Theorem
- 2.10.10: Example
- 2.10.11: Example
- 2.10.12: Factorization of Polynomial
- 2.10.13: Example of Factorization
- 2.10.14: Algebric Identities
- 2.10.15: Example
- 2.10.16: Summary
- 2.10.17: Summary
- 2.10.18: mcq_2.10
- Chapter 2.11: Probability
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Chapter 2.12: Quadrilaterals
- 2.12.1: Introduction
- 2.12.2: Objectives
- 2.12.3: Introduction to Quadrilaterals
- 2.12.4: Angle Sum Property of a Quadrilteral
- 2.12.5: Types of Quadrilaterals I
- 2.12.6: Types of Quadrilaterals II
- 2.12.7: Properties of Parallelograms I
- 2.12.8: Properties of Parallelograms II
- 2.12.9: Properties of Parallelograms III
- 2.12.10: Properties of Parallelograms IV
- 2.12.11: Diagonals of Rhombus
- 2.12.12: Example
- 2.12.13: Condition for a Quadrilateral to be a parallelogram
- 2.12.14: Example
- 2.12.15: The Mid Point Theorem
- 2.12.16: Converse of Midpoint Theorem
- 2.12.17: Summary
- 2.12.18: Summary
- 2.12.19: mcq_2.12
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Chapter 2.13: Statistics
- 2.13.1: Introduction
- 2.13.2: Objectives
- 2.13.3: Definition
- 2.13.4: Collection of Data
- 2.13.5: Presentation of Data
- 2.13.6: Frequency
- 2.13.7: Grouped Frequency Distribution Table
- 2.13.8: Graphical Representation of data
- 2.13.9: Drawing Bar Graphs
- 2.13.10: Histogram
- 2.13.11: Frequency Polygon
- 2.13.12: Measures of Cental Tendency
- 2.13.13: Examples
- 2.13.14: Example
- 2.13.15: mcq_2.13
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Chapter 2.14: Surface Area
- 2.14.1: Introduction
- 2.14.2: Objectives
- 2.14.3: Surface area of a cuboid
- 2.14.4: Surface area of a cube
- 2.14.5: Examples
- 2.14.6: Examples
- 2.14.7: Surface area of a Right Circular Cylinder
- 2.14.8: Examples
- 2.14.9: Surface area of a Right Circular Cone
- 2.14.10: Example
- 2.14.11: Surface area of a Shere
- 2.14.12: Example
- 2.14.13: Did You Know
- 2.14.14: Summary
- 2.14.15: mcq_2.14
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Chapter 2.15: Triangles
- 2.15.1: Introduction
- 2.15.2: Objectives
- 2.15.3: Congruent Figures
- 2.15.4: Congruent Triangles
- 2.15.5: Criteria for Congruence of Triangles I
- 2.15.6: Criteria for Congruence of Triangles II
- 2.15.7: Some Properties of a Triangle
- 2.15.8: Example
- 2.15.9: Example
- 2.15.10: Criteria for Congruence of Triangles III
- 2.15.11: Criteria for Congruence of Triangles IV
- 2.15.12: Inequalities in a Triangle I
- 2.15.13: Inequalities in a Triangle II
- 2.15.14: Example
- 2.15.15: Summary
- 2.15.16: mcq_2.15
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Chapter 2.16: Volume
- 2.16.1: Introduction
- 2.16.2: Objectives
- 2.16.3: Definition
- 2.16.4: Volume of a cuboid
- 2.16.5: Volume of a cube
- 2.16.6: Example
- 2.16.7: Example
- 2.16.8: Volume of a cylinder
- 2.16.9: Example on Volume of a cylinder
- 2.16.10: Volume of Right Circular Cone
- 2.16.11: Example of Volume of Right Circular Cone
- 2.16.12: Volume of Sphere
- 2.16.13: Example of Volume of Sphere
- 2.16.14: Example of Volume of Hemisphere
- 2.16.15: Did you Know
- 2.16.16: Summary
- 2.16.17: mcq_2.16
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Chapter 2.1: Areas of Parallelograms and Triangles