A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | |
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1 | S.No | Chapter No. | Chapter Name | Topic No. | Topic Name | Sub-topic No. | Sub-topic Name | Concept No | Concept Name | LO ID | Learning Outcome | |||||||||||||||
2 | 1 | 3 | Plants | 3.2 | Life cycle of a Flowering Plants | 3.2.1 | Dispersal of Seeds | 3.2.1f | Dispersal by Birds | demonstrates the concept of Dispersal of seeds by Birds | ||||||||||||||||
3 | 2 | 1 | Laws of motion | 1.1 | Introduction | 1.1.1 | Introduction | 1.1.1a | Introduction | recalls the concept of force | ||||||||||||||||
4 | 3 | 1 | Laws of motion | 1.1 | Force and motion | 1.1.2 | Force and motion | 1.1.2a | Force and motion | recognizes the difference between force and motion | ||||||||||||||||
5 | 4 | 1 | Laws of motion | 1.2 | Inertia | 1.2.1 | Inertia | 1.2.1a | Inertia | demonstrates for the concept of Inertia | ||||||||||||||||
6 | 5 | 1 | Laws of motion | 1.2 | Inertia | 1.2.2 | Types of Inertia | 1.2.2a | Inertia of rest | classifies the types of inertia | ||||||||||||||||
7 | 6 | 1 | Laws of motion | 1.2 | Inertia | 1.2.2 | Types of Inertia | 1.2.2b | Inertia of motion | classifies the types of inertia | ||||||||||||||||
8 | 7 | 1 | Laws of motion | 1.2 | Inertia | 1.2.2 | Types of Inertia | 1.2.2c | Inertia of direction | classifies the types of inertia | ||||||||||||||||
9 | 8 | 1 | Laws of motion | 1.2 | Inertia | 1.2.3 | Examples of inertia | 1.2.3a | Examples of inertia | illustrates types of inertia with example | ||||||||||||||||
10 | 9 | 1 | Laws of motion | 1.3 | Linear momentum | 1.3.1 | Linear momentum | 1.3.1a | Linear momentum | explains linear momentum | ||||||||||||||||
11 | 10 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.1 | Newton's first law | 1.4.1a | Newton's first law | states newtons first law | ||||||||||||||||
12 | 11 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.2 | Force | 1.4.2a | Force | summarises the concept of force | ||||||||||||||||
13 | 12 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.3 | Types of force | 1.4.3a | Like parallel force | describes like parallel force | ||||||||||||||||
14 | 13 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.3 | Types of force | 1.4.3b | Unlike parallel force | describes unlike parallel force | ||||||||||||||||
15 | 14 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.4 | Resultant force | 1.4.4a | Resultant force | explains resultant forces | ||||||||||||||||
16 | 15 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.5 | Rotating effect of force | 1.4.5a | Rotating effect of force | demonstrates the roatating effect of force | ||||||||||||||||
17 | 16 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.6 | Moment of the force | 1.4.6a | torque | explains the concept of moment of force | ||||||||||||||||
18 | 17 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.6 | Moment of the force | 1.4.6b | couple | explains the concept of moment of force | ||||||||||||||||
19 | 18 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.7 | Application for torque | 1.4.7a | Gears | explains working of Gear | ||||||||||||||||
20 | 19 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.7 | Application fo torque | 1.4.7b | seasaw | explains working of seasaw | ||||||||||||||||
21 | 20 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.7 | Application fo torque | 1.4.7c | streering wheel | explains working of streering wheel | ||||||||||||||||
22 | 21 | 1 | Laws of motion | 1.4 | Newton's laws of motion | 1.4.8 | principles of moments | 1.4.8a | Principles of moments | verifies Principal of Moments through Experiment | ||||||||||||||||
23 | 22 | 1 | Laws of motion | 1.5 | Newton's second law of motion | 1.5.1 | Newton's second law of motion | 1.5.1a | Units of force | derives the relation between force ,mass and acceleration | ||||||||||||||||
24 | 23 | 1 | Laws of motion | 1.5 | Newton's second law of motion | 1.5.1 | Newton's second law of motion | 1.5.1b | unit force | defines unit force | ||||||||||||||||
25 | 24 | 1 | Laws of motion | 1.5 | Newton's second law of motion | 1.5.1 | Newton's second law of motion | 1.5.1c | Gravitational unit of force | defines gravitational unit of force | ||||||||||||||||
26 | 25 | 1 | Laws of motion | 1.6 | Impulse | 1.6.1 | impulse | 1.6.1a | Impulse | describes impulsive force | ||||||||||||||||
27 | 26 | 1 | Laws of motion | 1.7 | Newton's third law of motion | 1.7.1 | Newton's third law of motion | 1.7.1a | Examples of newton's third law | defines newtons third law | ||||||||||||||||
28 | 27 | 1 | Laws of motion | 1.8 | Principles of conservation of linear momentum | 1.8.1 | principles of conservation of linear momentum | 1.8.1a | Principles of conservation of linear momentum | derives the laws of conservation of linear momentum | ||||||||||||||||
29 | 28 | 1 | Laws of motion | 1.9 | Rocket propulsion | 1.9.1 | Rocket propulsion | 1.9.1a | Rocket propulsion | explains the functioning of rocket propulsion | ||||||||||||||||
30 | 29 | 1 | Laws of motion | 1.10 | Gravitation | 1.10.1 | Newton's universal law of gravitation | 1.10.1a | newton's universal law of gravitation | derives newton's universal law of gravitation | ||||||||||||||||
31 | 30 | 1 | Laws of motion | 1.10 | Gravitation | 1.10.2 | accelaration due to gravity | 1.10.2a | Acceleration due to gravity | defines Acceleration due to gravity | ||||||||||||||||
32 | 31 | 1 | Laws of motion | 1.10 | Gravitation | 1.10.3 | realation between g and G | 1.10.3a | Relation between g and G | derives the relation between g and G | ||||||||||||||||
33 | 32 | 1 | Laws of motion | 1.10 | Gravitation | 1.10.4 | Mass of the earth | 1.10.4a | Mass of the earth | draws the relation between mass of the earth and G | ||||||||||||||||
34 | 33 | 1 | Laws of motion | 1.10 | Gravitation | 1.10.5 | Variation of acceleration due to gravity(g) | 1.10.5a | Variation of acceleration due to gravity(g) | inferes g and R are inversely propostional | ||||||||||||||||
35 | 34 | 1 | Laws of motion | 1.11 | Mass and weight | 1.11.1 | Mass and weight | 1.11.1a | Mass and weight | draws the relation between mass and weight | ||||||||||||||||
36 | 35 | 1 | Laws of motion | 1.12 | Apparent weight | 1.12.1 | Apparent weight | 1.12.1a | Apparent weight | explains apparent weight | ||||||||||||||||
37 | 36 | 1 | Laws of motion | 1.12 | Apparent weight | 1.12.2 | Weightlessness | 1.12.2a | Weightlessness | explains Weightlessness | ||||||||||||||||
38 | 37 | 1 | Laws of motion | 1.12 | Apparent weight | 1.12.3 | Weightlessness of the astronatus | 1.12.3a | Weightlessness of the astronatus | explains Weightlessness of the astronatus | ||||||||||||||||
39 | 38 | 1 | Laws of motion | 1.12 | Apparent weight | 1.12.4 | application of newton's law of gravitation | 1.12.4a | Applicationof newton's law of gravitation | lists the applications of newton's law of gravitation | ||||||||||||||||
40 | 39 | 2 | Optics | 2.1 | Introduction | 2.1.1 | Introduction | 2.1.1a | Introduction | recalls the cocepts of light | ||||||||||||||||
41 | 40 | 2 | Optics | 2.1 | Properties of light | 2.1.2 | Properties of light | 2.1.2a | Properties of light | describes the properties of light | ||||||||||||||||
42 | 41 | 2 | Optics | 2.2 | refraction of light | 2.2.1 | First law of refraction | 2.2.1a | first law of Refraction | states the first law of refraction | ||||||||||||||||
43 | 42 | 2 | Optics | 2.2 | refraction of light | 2.2.2 | second law of refraction | 2.2.2a | second law of refraction | states the second law of refraction | ||||||||||||||||
44 | 43 | 2 | Optics | 2.3 | refraction of a composite light dispersion of light | 2.3.1 | refraction of a composite light dispersion of light | 2.3.1a | Refraction of composite light - dispersion of light | explains refraction of composite light - dispersion of light | ||||||||||||||||
45 | 44 | 2 | Optics | 2.4 | scattering of light | 2.4.1 | scattering of light | 2.4.1a | scattering of light | defines scattering of light | ||||||||||||||||
46 | 45 | 2 | Optics | 2.4 | scattering of light | 2.4.2 | Types of scattering | 2.4.2a | Elastic scattering | explains elastic scattering | ||||||||||||||||
47 | 46 | 2 | Optics | 2.4 | scattering of light | 2.4.2 | Types of scattering | 2.4.2b | Inelastic scattering | explains inelastic scattering | ||||||||||||||||
48 | 47 | 2 | Optics | 2.4 | scattering of light | 2.4.2 | Types of scattering | 2.4.2c | Rayleigh's scattering | defines Rayleigh's scattering | ||||||||||||||||
49 | 48 | 2 | Optics | 2.4 | scattering of light | 2.4.2 | Types of scattering | 2.4.2d | Rayleigh's scattering law | states Rayleigh's scattering law | ||||||||||||||||
50 | 49 | 2 | Optics | 2.4 | scattering of light | 2.4.2 | Types of scattering | 2.4.2e | Mie scattering | explains mie scattering | ||||||||||||||||
51 | 50 | 2 | Optics | 2.4 | scattering of light | 2.4.2 | Types of scattering | 2.4.2f | Tyndall scattering | states Tyndall scattering | ||||||||||||||||
52 | 51 | 2 | Optics | 2.4 | scattering of light | 2.4.2 | Types of scattering | 2.4.2g | Raman scattering | explains the concept of Raman scattering | ||||||||||||||||
53 | 52 | 2 | Optics | 2.5 | lenses | 2.5.1 | Lenses | 2.5.1a | convex or biconvex lens | explains convex or biconvex lens | ||||||||||||||||
54 | 53 | 2 | Optics | 2.5 | Lenses | 2.5.1 | Lenses | 2.5.1b | concave or biconcave | explains concave or biconcave lens | ||||||||||||||||
55 | 54 | 2 | Optics | 2.5 | lenses | 2.5.2 | other types of lenses | 2.5.2a | Plano-convex lens | explains plano-convex lens | ||||||||||||||||
56 | 55 | 2 | Optics | 2.5 | lenses | 2.5.2 | other types of lenses | 2.5.2b | plano-concave lens | explains plano-concave lens | ||||||||||||||||
57 | 56 | 2 | Optics | 2.6 | Images formed refraction through a convex and concave lens | 2.6.1 | Images formed refraction through a convex and concave lens | 2.6.1a | Images formed refraction through a convex and concave lens rule-1 | explains refraction through lenses at optical centre | ||||||||||||||||
58 | 57 | 2 | Optics | 2.6 | Images formed refraction through a convex and concave lens | 2.6.1 | Images formed refraction through a convex and concave lens | 2.6.1b | Images formed refraction through a convex and concave lensRule - 2 | explains refraction through lenses, parallel to optic axis | ||||||||||||||||
59 | 58 | 2 | Optics | 2.6 | Images formed refraction through a convex and concave lens | 2.6.1 | Images formed refraction through a convex and concave lens | 2.6.1c | Images formed refraction through a convex and concave lensRule -3 | explains refraction through lenses, through principal axis | ||||||||||||||||
60 | 59 | 2 | Optics | 2.7 | Refraction through convex lens | 2.7.1 | refraction through convex lens | 2.7.1a | object at infinity | explains refraction through convex lens | ||||||||||||||||
61 | 60 | 2 | Optics | 2.7 | Refraction through convex lens | 2.7.1 | refraction through convex lens | 2.7.1b | object placed beyond C(>2F) | explains refraction through convex lens, when object is placed beyond C(>2F) | ||||||||||||||||
62 | 61 | 2 | Optics | 2.7 | Refraction through convex lens | 2.7.1 | refraction through convex lens | 2.7.1c | Object placed at C | explains refraction through convex lens, when Object is placed at C | ||||||||||||||||
63 | 62 | 2 | Optics | 2.7 | Refraction through convex lens | 2.7.1 | refraction through convex lens | 2.7.1d | object placed between F and C | explains refraction through convex lens | ||||||||||||||||
64 | 63 | 2 | Optics | 2.7 | Refraction through convex lens | 2.7.1 | refraction through convex lens | 2.7.1e | object placed at the principal focus F | explains refraction through convex lens when object is placed at the principal focus F | ||||||||||||||||
65 | 64 | 2 | Optics | 2.7 | Refraction through convex lens | 2.7.1 | refraction through convex lens | 2.7.1f | object placed between the principal focus F and optical center O | explains refraction through convex lens when object is placed between principal focus and optical centre O | ||||||||||||||||
66 | 65 | 2 | Optics | 2.8 | Applications of convex lenses | 2.8.1 | applications of convex lens | 2.8.1a | Applications of convex lens | lists out the applications of convex lens | ||||||||||||||||
67 | 66 | 2 | Optics | 2.9 | Refraction through concave lens | 2.9.1 | Refraction through a concave lens | 2.9.1a | object at infinity | explains refraction through concave lens, when object is placed at infinity | ||||||||||||||||
68 | 67 | 2 | Optics | 2.9 | refraction through a concave lens | 2.9.1 | refraction through a concave lens | 2.9.1b | object any where on the principle axis at a finite distance | explains refraction through concave lens,when object any where on the principle axis at a finite distance | ||||||||||||||||
69 | 68 | 2 | Optics | 2.10 | Applications of concave lenses | 2.10.1 | Applications of concave lenses | 2.10.1a | Applications of concave lenses | lists out the applications of concave lens | ||||||||||||||||
70 | 69 | 2 | Optics | 2.11 | Lens formula | 2.11.1 | lens formula | 2.11.1a | lens formula | formulates the relationship between focal length, object distance and image distance | ||||||||||||||||
71 | 70 | 2 | Optics | 2.12 | Sign convention | 2.12.1 | sign convention | 2.12.1a | sign convention | applies cartesian sign conventions in ray diagrams | ||||||||||||||||
72 | 71 | 2 | Optics | 2.13 | magnification of lens | 2.13.1 | magnification of lens | 2.13.1a | magnification of lens | formulates the relationship between magnification, size of the object and image | ||||||||||||||||
73 | 72 | 2 | Optics | 2.14 | Lens maker's formula | 2.14.1 | Lens maker's formula | 2.14.1a | Lens maker's formula | derives the relationship between focal lentgh, radius of curvature of lens and refractive index | ||||||||||||||||
74 | 73 | 2 | Optics | 2.15 | Power of a lens | 2.15.1 | Power of a lens | 2.15.1a | Power of a lens | derives the relationship between power and focal length of the lens | ||||||||||||||||
75 | 74 | 2 | Optics | 2.16 | Human eye | 2.16.1 | Human eye | 2.16.1a | Structure of eye | describes the structure of human eye | ||||||||||||||||
76 | 75 | 2 | Optics | 2.16 | Human eye | 2.16.1 | Human eye | 2.16.1b | Working of eye | describes the working of human eye | ||||||||||||||||
77 | 76 | 2 | Optics | 2.16 | Human eye | 2.16.1 | Human eye | 2.16.1c | power of accomodation | describes the power of accomadation | ||||||||||||||||
78 | 77 | 2 | Optics | 2.16 | Human eye | 2.16.1 | Human eye | 2.16.1d | Persistence of vision | describes the persistence of vision | ||||||||||||||||
79 | 78 | 2 | Optics | 2.16 | Human eye | 2.16.1 | Human eye | 2.16.1e | The far point and near point of the human | describes the far point and near point of the human | ||||||||||||||||
80 | 79 | 2 | Optics | 2.17 | Defect in eye | 2.171 | defect in eye | 2.17.1a | defect in eye | describes the defects of the eye | ||||||||||||||||
81 | 80 | 2 | Optics | 2.17 | Defect in eye | 2.17.2 | defect in eye | 2.17.2a | Myopia | describes the reason for short sightedness | ||||||||||||||||
82 | 81 | 2 | Optics | 2.17 | Defect in eye | 2.17.2 | defect in eye | 2.17.2b | Hypermetropia | describes the reason for hypermetropia | ||||||||||||||||
83 | 82 | 2 | Optics | 2.17 | Defect in eye | 2.17.2 | defect in eye | 2.17.2c | Presbiopia | describes the reason for presbiopia | ||||||||||||||||
84 | 83 | 2 | Optics | 2.17 | Defect in eye | 2.17.2 | defect in eye | 2.17.2d | Astigmatism | describes the reason for astigmatism | ||||||||||||||||
85 | 84 | 2 | Optics | 2.18 | microscope | 2.18.1 | Microscope | 2.18.1a | Simple microscope | describes the formation of enlarged image in simple microscope | ||||||||||||||||
86 | 85 | 2 | Optics | 2.18 | microscope | 2.18.2 | Microscope | 2.18.2a | Uses of simple microscope | lists the uses of simple microscope | ||||||||||||||||
87 | 86 | 2 | Optics | 2.18 | microscope | 2.18.3 | Microscope | 2.18.3a | compound microscope | describes the formation of enlarged image by compound microscope | ||||||||||||||||
88 | 87 | 2 | Optics | 2.18 | microscope | 2.18.3 | Microscope | 2.18.3b | construction | describes the construction of enlarged image by compound microscope | ||||||||||||||||
89 | 88 | 2 | Optics | 2.18 | microscope | 2.18.3 | Microscope | 2.18.3a | Working | explains the working of compound microscope | ||||||||||||||||
90 | 89 | 2 | Optics | 2.18 | microscope | 2.18.4 | Microscope | 2.18.4a | Travelling microscope | explains the nature of the travelling microscope | ||||||||||||||||
91 | 90 | 2 | Optics | 2.19 | Telescope | 2.19.1 | telescope | 2.19.1a | Telescope | explains about the invention of telescope | ||||||||||||||||
92 | 91 | 2 | Optics | 2.19 | Telescope | 2.19.2 | telescope | 2.19.2a | types of telescope | classifies the major types of telscopes | ||||||||||||||||
93 | 92 | 2 | Optics | 2.19 | Telescope | 2.19.2 | telescope | 2.19.2b | astronomical telescope | explains the use of astraunomical telescope | ||||||||||||||||
94 | 93 | 2 | Optics | 2.19 | Telescope | 2.19.2 | telescope | 2.19.2c | Terrestrial telescope | explains the use of terrestrial telescope | ||||||||||||||||
95 | 94 | 2 | Optics | 2.19 | Telescope | 2.19.3 | telescope | 2.19.3a | Advantages & Disavantages of telescope | lists the advantages and disadvantages of telescope | ||||||||||||||||
96 | 95 | 3 | Thermal physics | 3.1 | Introduction | 3.1.1 | Introduction | 3.1.1a | Introduction | recalls the cocepts of heat and temperature | ||||||||||||||||
97 | 96 | 3 | Thermal physics | 3.2 | temperature | 3.2.1 | Temperature | 3.2.1a | Temperature | explains the concept of temperature | ||||||||||||||||
98 | 97 | 3 | Thermal physics | 3.2 | temperature | 3.2.2 | Absolute scale of temperature | 3.2.2a | Absolute scale of temparature | defines absolute scale of temperature | ||||||||||||||||
99 | 98 | 3 | Thermal physics | 3.2 | temperature | 3.2.3 | thermal equlibrium | 3.2.3a | thermal equilibrium | explains thermal equilibrium | ||||||||||||||||
100 | 99 | 3 | Thermal physics | 3.3 | thermal energy | 3.3.1 | Thermal energy | 3.3.1a | Thermal energy | explains thermal energy |