Chapter 1: Physical Quantities and Measurement
Physical Quantities, Base Quantities, Derived
Quantities, International System of
Units, Base Units, Derived Units, Prefixes, Scientific
Notation, Vernier Callipers,
Significant Figures, Example: 1.4
Exercise:
Class Work: Q 1.1: (iv, v, vii, x) (1.4-1.7, 1.9-1.11,
1.13), Problems: (1.2, 1.3, 1.6, 1.8)
Home Work: Q 1.1: (i-iii, vi) (1.2, 1.3, 1.5, 1.8,
1.12), Problems: (1.4, 1.5, 1.9)
Chapter 2: Kinematics
Rest and Motion, Scalars and Vectors, Terms Associated
with Motion, Graphical
Analysis of Motion
Distance-Time Graph, Speed-Time Graph, Equations of
Motion, Motion of Freely
Falling Bodies, Examples: 2.4-2.10
Exercise:
Class Work: Q 2.1: (iv-vii, ix, x, xii) (2.6-2.8,
2.13), Problems: (2.3-2.5, 2.7, 2.8)
Home Work: Q 2.1: (iii, viii-xi) (2.4, 2.5, 2.9, 2.10),
Problems: (2.1, 2.2, 2.6)
Chapter 3: Dynamics
Force, Inertia and Momentum, Newton’s Laws of Motion,
Mass and Weight, Force
and Momentum, Law of Conservation of Momentum and its
Daily Life
Applications, Friction, Coefficient of Friction (F=
µR), Rolling Friction, Centripetal
Force, Examples: 3.1, 3.3, 3.6
Exercise:
Class Work: Q 3.1: (iii, viii) (3.3, 3.5-3.10, 3.12,
3.13, 3.17), Problems: (3.5, 3.9)
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Home Work: Q 3.1: (I, ii, v, vii-ix) (3.2, 3.4, 3.11,
3.14-3.17), Problems: (3.1-3.4, 3.8, 3.10)
Chapter 4: Turning Effect of Forces
Like and Unlike Parallel Forces, Addition of Forces,
Head to Tail Rule, Resolution
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of Forces, Torque or Moment of a Force, Principle of
Moments, Centre of Gravity,
Equilibrium, First Condition of Equilibrium, Second
Condition of Equilibrium only,
Examples: 4.2-4.5
Exercise:
Class Work: Q 4.1: (ii, iv-vii), (4.4, 4.5, 4.7-4.9,
4.11, 4.12), Problems: (4.1, 4.3, 4.7, 4.8)
Home Work: Q 4.1: (i-iii, viii), (4.6, 4.10-4.13),
Problems: (4.2, 4.4-4.6)
Chapter 5: Gravitation
The Force of Gravitation, Law of Gravitation, Law of
Gravitation and Newton Third
Law of Motion, Mass of Earth, Artificial Satellites,
Examples: 5.1, 5.2
Exercise:
Class Work: Q 5.1: (ii) (5.8-5.10) Problems: (5.4, 5.5,
5.8, 5.9)
Home Work: Q 5.1: (i, iii, iv) (5.2, 5.3, 5.12, 5.13)
Problems: (5.1-5.3, 5.7)
Chapter 6: Work and Energy
Energy, Kinetic Energy (K.E.=1/2 mv2), Potential Energy
(P.E.=mgh), Efficiency,
Power, Examples: 6.2, 6.3, 6.5, 6.7
Exercise:
Class Work: Q 6.1: (ii, iii, vii), (6.3, 6.5, 6.6,
6.13, 6.14), Problems: (6.4-6.6)
Home Work: Q 6.1: (i, iv-vi, ix), (6.2, 6.4, 6.7, 6.15,
6.16), Problems: (6.1-6.3, 6.7, 6.9)
Chapter 7: Properties of Matter
Pressure, Atmospheric Pressure, Variation in
Atmospheric Pressure, Pressure in
Liquids, Density, Pascal's Law, Elasticity, Hooke’s
Law, Young’s Modulus,
Examples: 7.2, 7.7
Exercise:
Class Work: Q7.1: (viii) (7.22), Problems: (7.1,7.6)
Home Work: Q7.1: (iii) (7.6, 7.15, 7.17), Problems:
(7.5, 7.12)
Chapter 8: Thermal Properties of Matter
Temperature and Heat, Specific Heat Capacity,
Importance of Large Specific Heat
Capacity of Water, Heat Capacity, Change of State,
Latent Heat of Fusion, Latent
Heat of Vaporization, The Evaporation, Thermal
Expansion, Linear Thermal
Expansion in Solids, Volume Thermal Expansion,
Examples: 8.5-8.7
Exercise:
Class Work: Q 8.1: (vi, vii), (8.7-8.9) Problems: (8.4,
8.8)
Home Work: Q 8.1: (iv, v viii), (8.3, 8.10) Problems:
(8.3, 8.7)
Chapter 9: Transfer of Heat
Transfer of Heat, Conduction, Thermal Conductivity,
Convection, Convection
Currents in Air, Use of Convection Currents, Land and
Sea Breezes, Gliding,
Radiation, Example: 9.1
Exercise:
Class Work: Q 9.1: (ii, vi-viii), (9.4, 9.6, 9.7),
Problems: (9.2)
Home Work: Q 9.1: (i, iii, v, ix), (9.2, 9.5),
Problems: (9.1)
EXPERIMENTS:
1. To measure the Volume of a Solid Cylinder by
measuring Length and
Diameter of a
Solid Cylinder with Vernier Callipers.
2. To find the Value of “g” by Free Fall Method.
3. Investigate the Relationship between Force of
Limiting Friction and Normal
Reaction to find
the Co-efficient of Sliding Friction between a Wooden
Block and
Horizontal Surface.
4. To determine the Resultant of two forces graphically
using a Horizontal
Force Table.
5. To find the Weight of an unknown object by using
Principle of Moments.
6. To study the Effect of the Length of Simple Pendulum
on Time and hence
find “g” by
calculation.
7. To study the Relationship between Load and Extension
(Helical Spring) by
drawing a graph.
8. To find the Specific Heat by the method of mixture
using Polystyrene Cups
(used as
container of negligible Heat Capacity).
9. To measure the Specific Heat of Fusion of Ice.
11
Chapter 1: Physical Quantities and Measurement
Physical Quantities, Base Quantities, Derived
Quantities, International System of
Units, Base Units, Derived Units, Prefixes, Scientific
Notation, Vernier Callipers,
Significant Figures, Example: 1.4
Exercise:
Class Work: Q 1.1: (iv, v, vii, x) (1.4-1.7, 1.9-1.11,
1.13), Problems: (1.2, 1.3, 1.6, 1.8)
Home Work: Q 1.1: (i-iii, vi) (1.2, 1.3, 1.5, 1.8,
1.12), Problems: (1.4, 1.5, 1.9)
Chapter 2: Kinematics
Rest and Motion, Scalars and Vectors, Terms Associated
with Motion, Graphical
Analysis of Motion
Distance-Time Graph, Speed-Time Graph, Equations of
Motion, Motion of Freely
Falling Bodies, Examples: 2.4-2.10
Exercise:
Class Work: Q 2.1: (iv-vii, ix, x, xii) (2.6-2.8,
2.13), Problems: (2.3-2.5, 2.7, 2.8)
Home Work: Q 2.1: (iii, viii-xi) (2.4, 2.5, 2.9, 2.10),
Problems: (2.1, 2.2, 2.6)
Chapter 3: Dynamics
Force, Inertia and Momentum, Newton’s Laws of Motion,
Mass and Weight, Force
and Momentum, Law of Conservation of Momentum and its
Daily Life
Applications, Friction, Coefficient of Friction (F=
µR), Rolling Friction, Centripetal
Force, Examples: 3.1, 3.3, 3.6
Exercise:
Class Work: Q 3.1: (iii, viii) (3.3, 3.5-3.10, 3.12,
3.13, 3.17), Problems: (3.5, 3.9)
Home Work: Q 3.1: (I, ii, v, vii-ix) (3.2, 3.4, 3.11,
3.14-3.17), Problems: (3.1-3.4, 3.8, 3.10)
Chapter 4: Turning Effect of Forces
Like and Unlike Parallel Forces, Addition of Forces,
Head to Tail Rule, Resolution
of Forces, Torque or Moment of a Force, Principle of
Moments, Centre of Gravity,
Equilibrium, First Condition of Equilibrium, Second
Condition of Equilibrium only,
Examples: 4.2-4.5
Exercise:
Class Work: Q 4.1: (ii, iv-vii), (4.4, 4.5, 4.7-4.9,
4.11, 4.12), Problems: (4.1, 4.3, 4.7, 4.8)
Home Work: Q 4.1: (i-iii, viii), (4.6, 4.10-4.13),
Problems: (4.2, 4.4-4.6)
Chapter 5: Gravitation
The Force of Gravitation, Law of Gravitation, Law of
Gravitation and Newton Third
Law of Motion, Mass of Earth, Artificial Satellites,
Examples: 5.1, 5.2
Exercise:
Class Work: Q 5.1: (ii) (5.8-5.10) Problems: (5.4, 5.5,
5.8, 5.9)
Home Work: Q 5.1: (i, iii, iv) (5.2, 5.3, 5.12, 5.13)
Problems: (5.1-5.3, 5.7)
Chapter 6: Work and Energy
Energy, Kinetic Energy (K.E.=1/2 mv2), Potential Energy
(P.E.=mgh), Efficiency,
Power, Examples: 6.2, 6.3, 6.5, 6.7
Exercise:
Class Work: Q 6.1: (ii, iii, vii), (6.3, 6.5, 6.6,
6.13, 6.14), Problems: (6.4-6.6)
Home Work: Q 6.1: (i, iv-vi, ix), (6.2, 6.4, 6.7, 6.15,
6.16), Problems: (6.1-6.3, 6.7, 6.9)
Chapter 7: Properties of Matter
Pressure, Atmospheric Pressure, Variation in
Atmospheric Pressure, Pressure in
Liquids, Density, Pascal's Law, Elasticity, Hooke’s
Law, Young’s Modulus,
Examples: 7.2, 7.7
Exercise:
Class Work: Q7.1: (viii) (7.22), Problems: (7.1,7.6)
Home Work: Q7.1: (iii) (7.6, 7.15, 7.17), Problems:
(7.5, 7.12)
Chapter 8: Thermal Properties of Matter
Temperature and Heat, Specific Heat Capacity,
Importance of Large Specific Heat
Capacity of Water, Heat Capacity, Change of State,
Latent Heat of Fusion, Latent
Heat of Vaporization, The Evaporation, Thermal
Expansion, Linear Thermal
Expansion in Solids, Volume Thermal Expansion,
Examples: 8.5-8.7
Exercise:
Class Work: Q 8.1: (vi, vii), (8.7-8.9) Problems: (8.4,
8.8)
Home Work: Q 8.1: (iv, v viii), (8.3, 8.10) Problems:
(8.3, 8.7)
Chapter 9: Transfer of Heat
Transfer of Heat, Conduction, Thermal Conductivity,
Convection, Convection
Currents in Air, Use of Convection Currents, Land and
Sea Breezes, Gliding,
Radiation, Example: 9.1
Exercise:
Class Work: Q 9.1: (ii, vi-viii), (9.4, 9.6, 9.7),
Problems: (9.2)
Home Work: Q 9.1: (i, iii, v, ix), (9.2, 9.5),
Problems: (9.1)
EXPERIMENTS:
1. To measure the Volume of a Solid Cylinder by
measuring Length and
Diameter of a
Solid Cylinder with Vernier Callipers.
2. To find the Value of “g” by Free Fall Method.
3. Investigate the Relationship between Force of
Limiting Friction and Normal
Reaction to find
the Co-efficient of Sliding Friction between a Wooden
Block and
Horizontal Surface.
4. To determine the Resultant of two forces graphically
using a Horizontal
Force Table.
5. To find the Weight of an unknown object by using
Principle of Moments.
6. To study the Effect of the Length of Simple Pendulum
on Time and hence
find “g” by
calculation.
7. To study the Relationship between Load and Extension
(Helical Spring) by
drawing a graph.
8. To find the Specific Heat by the method of mixture
using Polystyrene Cups
(used as
container of negligible Heat Capacity).
9. To measure the Specific Heat of Fusion of Ice.
12
Chapter 1: Physical Quantities and Measurement
Physical Quantities, Base Quantities, Derived
Quantities, International System of
Units, Base Units, Derived Units, Prefixes, Scientific
Notation, Vernier Callipers,
Significant Figures, Example: 1.4
Exercise:
Class Work: Q 1.1: (iv, v, vii, x) (1.4-1.7, 1.9-1.11,
1.13), Problems: (1.2, 1.3, 1.6, 1.8)
Home Work: Q 1.1: (i-iii, vi) (1.2, 1.3, 1.5, 1.8,
1.12), Problems: (1.4, 1.5, 1.9)
Chapter 2: Kinematics
Rest and Motion, Scalars and Vectors, Terms Associated
with Motion, Graphical
Analysis of Motion
Distance-Time Graph, Speed-Time Graph, Equations of
Motion, Motion of Freely
Falling Bodies, Examples: 2.4-2.10
Exercise:
Class Work: Q 2.1: (iv-vii, ix, x, xii) (2.6-2.8,
2.13), Problems: (2.3-2.5, 2.7, 2.8)
Home Work: Q 2.1: (iii, viii-xi) (2.4, 2.5, 2.9, 2.10),
Problems: (2.1, 2.2, 2.6)
CHEMISTRY 8
CHAPTER NO. 1: FUNDAMENTALS OF CHEMISTRY
Chemistry and branches of chemistry, Basic Definitions
(matter, substance,
homogeneous and heterogeneous mixture, physical and
chemical properties),
Elements, Compound and Mixture, Difference between a
compound and a mixture,
Atomic Number and Mass Number, Example 1.1, Relative
Atomic Mass and
Relative Mass Unit, Empirical formula and Molecular
formula, Molecular mass and
Formula mass, Example 1.2; 1.3, Types of Molecules,
Avogadro’s Number, Mole
and Molar mass, Example 1.4, Chemical Calculations,
Mole-Mass Calculations,
Example 1.5, Mole-Particle Calculations, Example
1.6,1.7(pp. 4-14; 16-22).
Chapter 3: Dynamics
Force, Inertia and Momentum, Newton’s Laws of Motion,
Mass and Weight, Force
and Momentum, Law of Conservation of Momentum and its
Daily Life
Applications, Friction, Coefficient of Friction (F=
µR), Rolling Friction, Centripetal
Force, Examples: 3.1, 3.3, 3.6
Exercise:
Class Work: Q 3.1: (iii, viii) (3.3, 3.5-3.10, 3.12,
3.13, 3.17), Problems: (3.5, 3.9)
Home Work: Q 3.1: (I, ii, v, vii-ix) (3.2, 3.4, 3.11,
3.14-3.17), Problems: (3.1-3.4, 3.8, 3.10)
Chapter 4: Turning Effect of Forces
Like and Unlike Parallel Forces, Addition of Forces,
Head to Tail Rule, Resolution
of Forces, Torque or Moment of a Force, Principle of
Moments, Centre of Gravity,
Equilibrium, First Condition of Equilibrium, Second
Condition of Equilibrium only,
Examples: 4.2-4.5
Exercise:
Class Work: Q 4.1: (ii, iv-vii), (4.4, 4.5, 4.7-4.9,
4.11, 4.12), Problems: (4.1, 4.3, 4.7, 4.8)
Home Work: Q 4.1: (i-iii, viii), (4.6, 4.10-4.13),
Problems: (4.2, 4.4-4.6)
Chapter 5: Gravitation
The Force of Gravitation, Law of Gravitation, Law of
Gravitation and Newton Third
Law of Motion, Mass of Earth, Artificial Satellites,
Examples: 5.1, 5.2
Exercise:
Class Work: Q 5.1: (ii) (5.8-5.10) Problems: (5.4, 5.5,
5.8, 5.9)
Home Work: Q 5.1: (i, iii, iv) (5.2, 5.3, 5.12, 5.13)
Problems: (5.1-5.3, 5.7)
Chapter 6: Work and Energy
Energy, Kinetic Energy (K.E.=1/2 mv2), Potential Energy
(P.E.=mgh), Efficiency,
Power, Examples: 6.2, 6.3, 6.5, 6.7
Exercise:
Class Work: Q 6.1: (ii, iii, vii), (6.3, 6.5, 6.6,
6.13, 6.14), Problems: (6.4-6.6)
Home Work: Q 6.1: (i, iv-vi, ix), (6.2, 6.4, 6.7, 6.15,
6.16), Problems: (6.1-6.3, 6.7, 6.9)
Chapter 7: Properties of Matter
Pressure, Atmospheric Pressure, Variation in
Atmospheric Pressure, Pressure in
Liquids, Density, Pascal's Law, Elasticity, Hooke’s
Law, Young’s Modulus,
Examples: 7.2, 7.7
Exercise:
Class Work: Q7.1: (viii) (7.22), Problems: (7.1,7.6)
Home Work: Q7.1: (iii) (7.6, 7.15, 7.17), Problems:
(7.5, 7.12)
Chapter 8: Thermal Properties of Matter
Temperature and Heat, Specific Heat Capacity,
Importance of Large Specific Heat
Capacity of Water, Heat Capacity, Change of State,
Latent Heat of Fusion, Latent
Heat of Vaporization, The Evaporation, Thermal
Expansion, Linear Thermal
Expansion in Solids, Volume Thermal Expansion,
Examples: 8.5-8.7
Exercise:
Class Work: Q 8.1: (vi, vii), (8.7-8.9) Problems: (8.4,
8.8)
Home Work: Q 8.1: (iv, v viii), (8.3, 8.10) Problems:
(8.3, 8.7)
Chapter 9: Transfer of Heat
Transfer of Heat, Conduction, Thermal Conductivity,
Convection, Convection
Currents in Air, Use of Convection Currents, Land and
Sea Breezes, Gliding,
Radiation, Example: 9.1
Exercise:
Class Work: Q 9.1: (ii, vi-viii), (9.4, 9.6, 9.7),
Problems: (9.2)
Home Work: Q 9.1: (i, iii, v, ix), (9.2, 9.5),
Problems: (9.1)
EXPERIMENTS:
1. To measure the Volume of a Solid Cylinder by
measuring Length and
Diameter of a
Solid Cylinder with Vernier Callipers.
2. To find the Value of “g” by Free Fall Method.
3. Investigate the Relationship between Force of
Limiting Friction and Normal
Reaction to find
the Co-efficient of Sliding Friction between a Wooden
Block and
Horizontal Surface.
4. To determine the Resultant of two forces graphically
using a Horizontal
Force Table.
5. To find the Weight of an unknown object by using
Principle of Moments.
6. To study the Effect of the Length of Simple Pendulum
on Time and hence
find “g” by
calculation.
7. To study the Relationship between Load and Extension
(Helical Spring) by
drawing a graph.
8. To find the Specific Heat by the method of mixture
using Polystyrene Cups
(used as
container of negligible Heat Capacity).
9. To measure the Specific Heat of Fusion of Ice.