None

• Introduction: Dimensional analysis; scientific notation; orders of magnitude
• Mathematical Physics: Vector algebra; trigonometry; preliminary calculus
• Kinematics – I: Position, displacement, velocity, acceleration, and motion in 1D
• Kinematics – II: Motion in 2D; projectile motion
• Forces – I:  Newton’s Laws of motion and its applications – friction, drag, terminal velocity
• Work and Energy: Kinetic energy; potential energy; conservation of energy; work done and energy; work-energy theorem
• Centre of mass and linear momentum – I: Centre of mass; linear momentum; Elastic collisions; impulse; Newton’s Second Law revisited; conservation of linear momentum
• Rotational Motion – I: Kinematics – angular velocity, acceleration, and displacement;  Mechanics – angular momentum; conservation of angular momentum; torque; rotational work and energy
• Gravitation: Newton’s Law of Gravitation; acceleration due to gravitation, ‘g’; variation of ‘g’ with height and latitude; gravitational potential energy; escape velocity; circular orbits – radius, time period, and energy of orbit; Kepler’s Laws
  

• Feynman, R., Leighton, R. B., & Sands, M. (2008). The Feynman lectures on Physics. Narosa.
• Halliday, D., Resnick, R., & Walker, J. (2013). Fundamentals of Physics. Wiley.
• Verma, H. C. (2011). Concepts in Physics, Vol. I. Bharati Bhawan Publishers.