Rs.9,990.00 – Rs.14,990.00
Duration: Valid Till May 2020 
Lectures: 124 
Video: English/Hindi 
91 Hours 09 Minutes 
1. Introduction
2. The international system of units
3. Measurement of length
4. Measurement of mass
5. Measurement of time
6. Accuracy, precision of instruments and errors in measurement
7. Significant figures
8. Dimensions of physical quantities
9. Dimensional formulae and dimensional equations
10. Dimensional analysis and its applications
1. Introduction
2. Position, path length and displacement
3. Average velocity and average speed
4. Instantaneous velocity and speed
5. Acceleration
6. Kinematic equations for uniformly accelerated motion
7. Relative velocity
1. Introduction
2. Scalars and vectors
3. Multiplication of vectors by real numbers
4. Addition and subtraction of vectors â€“ graphical method
5. Resolution of vectors
6. Vector addition â€“ analytical method
7. Motion in a plane
8. Motion in a plane with constant acceleration
9. Relative velocity in two dimensions
10. Projectile motion
11. Uniform circular motion
1. Introduction
2. Aristotleâ€™s fallacy
3. The law of inertia
4. Newtonâ€™s first law of motion
5. Newtonâ€™s second law of motion
6. Newtonâ€™s third law of motion
7. Conservation of momentum
8. Equilibrium of a particle
9. Common forces in mechanics
10. Circular motion
11. Solving problems in mechanics
1. Introduction
2. Notions of work and kinetic energy : The workenergy theorem
3. Work
4. Kinetic energy
5. Work done by a variable force
6. The workenergy theorem for a variable force
7. The concept of potential energy
8. The conservation of mechanical energy
9. The potential energy of a spring
10. Various forms of energy : the law of conservation of energy
11. Power
12. Collisions
1. Introduction
2. Centre of mass
3. Motion of centre of mass
4. Linear momentum of a system of particles
5. Vector product of two vectors
6. Angular velocity and its relation with linear velocity
7. Torque and angular momentum
8. Equilibrium of a rigid body
9. Moment of inertia
10. Theorems of perpendicular and parallel axes
11. Kinematics of rotational motion about a fixed axis
12. Dynamics of rotational motion about a fixed axis
13. Angular momentum in case of rotations about a fixed axis
14. Rolling motion
1. Introduction
2. Keplerâ€™s laws
3. Universal law of gravitation
4. The gravitational constant
5. Acceleration due to gravity of the earth
6. Acceleration due to gravity below and above the surface of earth
7. Gravitational potential energy
8. Escape speed
9. Earth satellites
10. Energy of an orbiting satellite
11. Geostationary and polar satellites
12. Weightlessness Summary Points to ponder Exercises Additional exercises
1. Introduction
2. Elastic behaviour of solids
3. Stress and strain
4. Hookeâ€™s law
5. Stressstrain curve
6. Elastic moduli
7. Applications of elastic behaviour of materials
1. Introduction
2. Pressure
3. Streamline flow
4. Bernoulliâ€™s principle
5. Viscosity
6. Reynolds number
7. Surface tension
1. Introduction
2. Temperature and heat
3. Measurement of temperature
4. Idealgas equation and absolute temperature
5. Thermal expansion
6. Specific heat capacity
7. Calorimetry
8. Change of state
9. Heat transfer
10. Newtonâ€™s law of cooling
1. Introduction
2. Molecular nature of matter
3. Behaviour of gases
4. Kinetic theory of an ideal gas
5. Law of equipartition of energy
6. Specific heat capacity
7. Mean free path
1. Introduction
2. Thermal equilibrium
3. Zeroth law of thermodynamics
4. Heat, internal energy and work
5. First law of thermodynamics
6. Specific heat capacity
7. Thermodynamic state variables and equation of state
8. Thermodynamic processes
9. Heat engines
10. Refrigerators and heat pumps
11. Second law of thermodynamics
12. Reversible and irreversible processes
13. Carnot engine
1. Introduction
2. Periodic and oscillatory motions
3. Simple harmonic motion
4. Simple harmonic motion and uniform circular motion
5. Velocity and acceleration in simple harmonic motion
6. Force law for simple harmonic motion
7. Energy in simple harmonic motion
8. Some systems executing SHM
9. Damped simple harmonic motion
10. Forced oscillations and resonance
1. Introduction
2. Transverse and longitudinal waves
3. Displacement relation in a progressive wave
4. The speed of a travelling wave
5. The principle of superposition of waves
6. Reflection of waves
7. Beats
8. Doppler effect
1. Introduction
2. Transverse and longitudinal waves
3. Displacement relation in a progressive wave
4. The speed of a travelling wave
5. The principle of superposition of waves
6. Reflection of waves
7. Beats
8. Doppler effect
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Rs.9,990.00 – Rs.14,990.00
Duration: Valid Till May 2020 
Lectures: 124 
Video: English/Hindi 
91 Hours 09 Minutes 

Ashwin
What a excellent video lectures any one can't beats this lectures
Sneha
Easy to understand
himanshu
sir, in this year syllabus is change. and also comes 1 new chapter  ray optics. please include this chapter also in this syllabus becouse i want to buy this course
sudhanshu bhariya
ur explantion is very nice thank you sir for teaching in easy way
Ishwar Pandit
Hats off to Neetin Sir for making awesome videos
Bhaveen
awesome
Kailash
feel lucky to find your videos
rakesh33387
No one can teach like him . He is only the solution for the student like me . I was scared of physics but now that scare is gone away . I will prefer this for all the student who want the tutor for physics . I Like him and i am very thankful to him ðŸ™‚
ROBIN
AWESOME TEACHING STYLE
neeraj patel
very nice teaching . i am very impress for understanding topics deeply
Naveen Pandey
Awesome teaching style. You have really made Physics very easy to understand. Kudos !!!