Class 11 Physics

Position Time graph (x-t graph) and Velocity time graph (v-t graph)
Kinematic Equations for Uniformly Accelerated Motion
Equations of motion for uniformly accelerated motion in 1D (calculus method)
Free fall part-1 NEET
Free fall – Part 2 NEET
Stopping distance and other concepts for NEET
Problem solving in Physics
Sign convention for solving problems in Motion in a straight line
Derivation of expression for distance travelled by the body in nth second
Vector addition in 2D and 3D (graphical method)
Dot product and cross product of two vectors
Derivation of expression for magnitude and resultant of two vectors
Understanding projectile motion
Show that the trajectory of a projectile is a parabola
Time of maximum height and time of flight of a projectile
Maximum height and range of a projectile
Horizontal projectile – Calculation of time of flight and range
Uniform circular Motion
Derivation of expression for centripetal acceleration
Deriving F=ma and definition of 1N
State and prove law of conservation of linear momentum
Maximum speed of a car on a circular level road
Drawing free body diagram
Acceleration of a block sliding on a smooth inclined plane
Blocks in contact – NEET
Calculation of acceleration and tension when blocks are connected by a string
Atwood machine – Calculation of acceleration and tension
Derivation of F=ma
Motion of a car on a banked road – Expression for maximum and optimum speed
Prove Work – Energy theorem for a constant force
Prove Work – Energy theorem for a variable force
Show that power is a dot product of force and velocity
Relation between Kinetic energy and linear momentum
State and prove principle of conservation of mechanical energy in case of a freely falling body
Show that rate of change of angular momentum is equal to torque
Variation of acceleration due to gravity with height (altitude)
Variation of acceleration due to gravity with depth
Gravitational potential energy of a particle due to Earth
Expression for orbital velocity of a satellite
Period of revolution of a satellite around the Earth
Total energy of a satellite
Derivation of expression for work done in an isothermal process
Derivation of expressions for displacement, velocity and acceleration in SHM (simple harmonic motion)
Expression for time period of oscillation of a simple pendulum
Newton’s formula for speed of sound and Laplace correction