PHYSICS GRADE 11
Back to Dashboard
Hey there, great course, right? Do you like this course?
All of the most interesting lessons further. In order to continue you just need to purchase it
Get course
AED 400
Course sections
Section 1
Physical World
1
What is Physics? Part 1
2
What is Physics? Part 2
3
Scope and Excitement of Physics
4
1.3 – Physics Technology and Society
5
1.4 – Forces in Nature
6
Different Fundamental Forces – Part 1
7
Different Fundamental Forces – Part 2
8
Nature of Physical Laws – Part 1
9
Nature of Physical Laws – Part 2
10
Symmetry and Isotropy
11
Understanding Physical World with Help of Mind Map
Section 2
Units and Measurements - Part 1
1
Introduction
2
Fundamental and Derived Units
3
Table 2.1
4
Table 2.1 Continued…
5
Table 2.2
6
Measurement of Length and Parallax Method
7
Parallax Method Described and Examples Solved
8
Solved Problems and Estimaton of Very Small Distances
Section 3
Motion in a Straight Line
1
Motion in a Straight Line Introduction
2
Kinematics
3
Postion, Path Length and Displacement
4
Average Velocity
5
Average Speed
6
Instantaneous Speed
7
Position Time Graph of Instantaneous Speed
8
Variation of Velocity with Time
9
Instantaneous speed vs Instanteneous Acceleration
10
Acceleration as a Function of Time
11
Velocity – Time Graph for Some Simple Cases; Kinematic Equations for Uniformly Accelerated Motion
12
Kinematic Equation for Rectilinear Motion with Constant Acceleration ; Example 3.3
13
Example 3.4
14
Example 3.5
15
Example 3.6, 3.7, 3.8
16
Relative Velocity
17
Example 3.9
18
Mind Map
Section 4
Units and Measurements - Part 2
1
Exercise 2.5 Range of Lengths
2
Measurement of Lengths
3
Measurement of Time
4
Types of Errors
5
Least Count Error
6
Relative Error, Example 2.6
7
Combination of Errors
8
Example 2.8 ; Error of A Product or A Quotient
9
Example 2.10 ; Error in Case of Measured Quantity Raised to a Power
10
Example 2.1 and 2.7
11
Significant Figures
12
Significant Figures and Rounding Off Digits
13
Rules for Determining Uncertainties in Arithmetic Calculations; Dimensions of Physical Quantities
14
Dimensions of Physical Quantities Continued…
15
Deducing Relation among the Physical Quantities
16
Exercises [1(a,b,c,d)]
17
Exercises [2(a,b), 3]
18
Exercises (6,7,8)
19
Exercises (9,10,11,12)
20
Exercises (13,14,15,16)
21
Mind Map
Section 5
Motion in a Plane
1
Introduction
2
Scalars and Vectors
3
Equality of Vectors
4
Vector Addition
5
Parallelogram Method
6
Resolution of Vectors – Part 1
7
Resolution of Vectors – Part 2
8
Analytical Method
9
Example 4.2
10
Example 4.3
11
Position Vector and Displacement
12
Expressing Vector in a Component Form; Acceleration
13
Example 4.4
14
Example 4.5, 4.6
15
Projectile Motion
16
Equation of Path of a Projectile Motion
17
Maximum height of Projectile; Example 4.7
18
Example 4.8, 4.9
19
Neglecting Air Resistance ; Uniform Circular Motion – Part 1
20
Uniform Circular Motion – Part 2
21
Centripetal Acceleration; Example 4.10
22
Mind Map
Section 6
Work Energy and Power
1
Introduction
2
Work Done by a Variable Force
3
Conservative Forces and Non – Conservative Forces
4
Power and Energy ; Kinetic Energy
5
Kinetic Energy
6
Work Energy Theorem
7
Relation Between F and K, Potential Energy
8
Potential Energy Stored in a Spring – Part 1
9
Potential Energy Stored in a Spring – Part 2
10
Mechanical Energy and Conservation
11
Collision
12
Elastic Collision in One Direction
13
Perfectly Inelastic Collision in one Direction
14
Perfectly Elastic Collision in 2 Dimension
15
Numericals – Part 1
16
Numericals – Part 2
Section 7
Laws of Motion - Part 1
1
Introduction
2
Aristotle’s Fallacy
3
Law of Inertia (Continued…)
4
Newton’s First Law of Motion; Exercise 5.1
5
Newton’s Second Law of Motion (Part 1)
6
Newton’s Second Law of Motion (Part 2)
7
Some Points About Second Law of Motion
8
Impulse; Example 5.3, 5.4; Newton’s Third Law of Motion
9
Mind Map
Section 8
Laws of Motion - Part 2
1
Example 5.5
2
Conservation of Momentum
3
Equilibrium of Particles
4
Example 5.6
5
Common forces in Mechanics
6
Friction – Part 1
7
Friction – Part 2
8
Example (5.7 & 5.8)
9
Example 5.9
10
Rolling Friction
11
Circular motion – Part 1
12
Circular motion – Part 2
13
Example 5.11
14
Example 5.12 – Part 1
15
Example 5.12 – Part 2
Section 9
System of Particles and Rotational Motion
1
Introduction
2
Motion of Rigid body
3
Identical Transitional Trajectory (Motion of Rigid Body)
4
Centre of Mass – Part 1
5
Centre of Mass – Part 2 ; Example 7.1
6
Example 7.2 & Example 7.3
7
Motion of Centre of Mass – Part 1
8
Motion of Centre of Mass – Part 2
9
Motion of Centre of Mass – Part 3
10
Linear Momentum of System of Particles
11
Newton’s Second Law Extended to System of Particles
12
Vector Product of Two Vectors- Part 1
13
Vector Product of Two Vectors- Part 2
14
Angular Velocity
15
Relation of Angular Velocity with Linear Velocity
16
Angular Acceleration
17
Angular Momentum of a Particle
18
Angular Momentum for a System of Particles ;Law of Conservation of Angular Momentum
19
Example 7.5 ; Example 7.6
20
Equilibrium of Rigid Bodies- Part 1
21
Equilibrium of Rigid Bodies- Part 2
22
Partial Equilibrium – Part 1
23
Partial Equilibrium – Part 2 ; Example 7.7
24
Principle of Moments
25
Centre of Gravity
26
Numericals – Part 1
27
Numericals – Part 2
28
Moment of Inertia- Part 1
29
Moment of Inertia- Part 2 ; Radius of Gyration
30
Theorems of Perpendicular and Parallel Axes ; Example 7.11 ; Example 7.12
31
Kinematics of Rotational Motion about a Fixed Axis
32
Example 7.13 ; Example 7.14
33
Dynamics of Rotational Motion about a Fixed Axis
34
Work Done by Torque- Part 1
35
Work Done by Torque- Part 2 ; Example 7.15
36
Angular Momentum in case of Rotation about a Fixed Axis – Part 1
37
Angular Momentum in case of Rotation about a Fixed Axis – Part 2 ;Conservation of Angular Momentum
38
Rolling Motion
39
Kinetic theory of Rolling Motion; Example 7.16
40
Mind Map
Section 10
Gravitation
1
Introduction
2
Kepler’s Laws
3
Example 8.1
4
Universal Law of Gravitation – Part 1
5
Universal Law of Gravitation – Part 2
6
Example 8.2(a,b)
7
The Gravitational Constant
8
Acceleration due to Gravity of Earth
9
Acceleration due to Gravity Below and Above the Surface of Earth
10
Gravitational Potential Energy
11
Example 8.3; Escape Speed
12
Example 8.4
13
Earth Satellites; Example 8.5
14
Example 8.6; Example 8.7; Energy of an Orbiting Satellite
15
Example 8.8; Geostationary and Polar Satellites
16
Weightlessness; Mind Map
Section 11
Mechanical Properties of Solids
1
Mechanical Properties of Solids – Part 1
2
Mechanical Properties of Solids – Part 2
3
Stress and Strain
4
Types of Stress and Strain; Hooke’s Law
5
Types of modulus of elasticity;Potential Energy Stored in a String
6
Hooke’s Law;Stress – Strain Curve
7
Numericals (3,4)
8
Numericals (6,7,8)
Section 12
Mechanical Properties of Fluids
1
Introduction
2
Pressure; Variation in Pressure with Height
3
Variation of Pressure with Depth
4
Atmospheric Pressure and Gauge Pressure; Hydraulic Lift
5
Hydraulic Lift; Streamline Flow – Part 1
6
Streamline Flow – Part 2; Equation of Continuity; Expression for Critical Velocity
7
Difference Between Streamline Flow and Turbulent Flow; Types of Energy
8
Bernoulli’s Theorem
9
Limitations of Bernoulli’s Theorem;Venturi Meter;Torricelli’s Law
10
Applications of Bernoulli’s Theorem
11
Viscosity; Coefficient of Viscosity
12
Poiseuille’s Formula
13
Terminal Velocity; Numericals
14
Types of Intermolecular Forces; Intermolecular Binding Energy; Molecular Theory of Surface Tension – Part 1
15
Molecular Theory of Surface Tension-Part 2; Surface Energy
16
Angle of Contact; Applications of Surface Tension;Expression for Capillary Rise
17
Numericals
Section 13
Thermal Properties of Matter
1
Introduction
2
Thermometry- Part 1
3
Thermometry- Part 2;Numericals
4
Ideal Gas Equation
5
Thermal Expansion
6
Linear Expansion
7
Problems on Linear Expansion
8
Volume Expansion
9
Coefficient of Volume Expansion; Numericals
10
Area Expansion
11
Applications of Thermal Expansion- Part 1
12
Applications of Thermal Expansion- Part 2
13
Specific Heat Capacity- Part 1
14
Specific Heat Capacity- Part 2; Calorimetry
15
Numericals on Specific Heat Capacity & Calorimetry – Part 1
16
Numericals on Specific Heat Capacity & Calorimetry – Part 2
17
Numericals on Specific Heat Capacity & Calorimetry – Part 3
18
Numericals on Specific Heat Capacity & Calorimetry – Part 4
19
Numericals on Specific Heat Capacity & Calorimetry – Part 5
20
Numericals on Specific Heat Capacity & Calorimetry – Part 6
21
Numericals on Specific Heat Capacity & Calorimetry – Part 7
22
Change of State-Part 1
23
Change of State-Part 2
24
Change of State-Part 3
25
Latent Heat
26
Latent Heat of Melting
27
Numericals on Latent Heat – Part 1
28
Numericals on Latent Heat – Part 2
29
Numericals on Latent Heat – Part 3
30
Numericals on Latent Heat – Part 4
31
Numericals on Latent Heat – Part 5
32
Heat Transfer
33
Variable State & Steady State
34
Conduction – Part 1
35
Conduction – Part 2
36
Heat Current; Convection Heat Transfer
37
Radiation Heat Transfer
38
Numericals on Conduction Heat Transfer
39
Derivation of Junction Temperature & Equivalent Thermal Conductivity
40
Newton’s Law of Cooling
41
Numericals on Newton’s Law of Cooling;Verification of Newton’s Law of Cooling
Section 14
Thermodynamics - Part 1
1
Introduction
2
Overview on Thermodynamics
3
Types of Systems – Part 1
4
Types of Systems – Part 2
5
Examples of Different Types of Systems – Part 1
6
Examples of Different Types of Systems – Part 2
7
Problem Solving
8
Thermal Equilibrium
9
Zeroth Law of Thermodynamics
10
Internal Energy, Heat & Work
11
First Law of Thermodynamics
12
Mayer’s Relation
13
Thermodynamic State Variables & Equation of States
14
Work done in Isothermal Process; Adiabatic Process
15
Work done in Adiabatic Process
16
Second Law of Thermodynamics
Section 15
Thermodynamics - Part 2
1
Heat Engine
2
Refrigerator
3
Reversible and Irreversible Process
4
Carnot’s Engine
5
Work Done for an Adiabatic Process; Thermodynamic Process – Part 1
6
Thermodynamic Process – Part 2
7
Carnot’s Efficiency
Section 16
Kinetic Theory
1
Introduction
2
Boyle’s Law; Charles’s Law
3
Avogadro’s Hypothesis; Ideal Gas Equation
4
Kinetic Theory of Ideal Gases – Part 1
5
Kinetic Theory of Ideal Gases – Part 2
6
Specific Heat of Gases; Law of Equipartition of Energy
7
Mean Free Path
8
Degrees of Freedom for Different Kinds of Gases
9
Exercise Problems
10
Kinetic Gas Equation – Part 1
Section 17
Oscillations
1
Introduction
2
Periodic Motion; Oscillatory Motion
3
Period and Frequency
4
Simple Harmonic Motion and Circular Motion
5
General Form of SHM; Simple Systems Exhibiting SHM
6
Numericals; Time Period of Simple Pendulum
7
Numericals; Damped SHM – Part 1
8
Damped SHM – Part 2
9
Numericals
10
Energy in SHM
11
Exercise Problems – Part 1
12
Exercise Problems – Part 2
13
Illustrative Examples on Simple Harmonic Motion
14
General Equation for SHM
15
Exercise Problems – Part 3
Section 18
Waves
1
Introduction
2
Types of Waves
3
General Form of a Wave
4
Phase, Amplitude & Wavelength of Wave
5
Period & Frequency of a Wave
6
Speed of a Transverse Wave for a String; Principle of Superposition of Waves – Part 1
7
Principle of Superposition of Waves – Part 2
8
Reflection of Waves
9
Standing Waves & Normal Modes – Part 1
10
Standing Waves & Normal Modes – Part 2
11
Beats
Questions
My Question
{{ comment.replies_count }}
Send
Load More
Back to Q&A List
Add Comment
{{ message }}
Send
Thermal Properties of Matter
Numericals on Latent Heat – Part 1
Lesson is locked. Please Buy course to proceed.
Thermal Properties of Matter
Latent Heat of Melting
Complete
Thermal Properties of Matter
Numericals on Latent Heat – Part 2
Questions
My Question