Fundamentals of Physics

Course Code: PHYCS 111

Course Description :

Vectors and scalars; straight line and projectile motion; Newton’s laws of motion; work, energy and power, momentum and impulse; rotational motion; periodic motion; the electric field; Gauss’s law; electric potential; capacitance and dielectrics; magnetic fields and magnetic forces.

Duration :

16 Weeks

Mode of Delivery :

Interactive Live Online Sessions

Lectures :

Number of Lectures Per Month : 8 Lectures

Number of Tutorials Per Month : 2 Tutorials  (Including Revision Classes for Midterm and Final Exams)

4

Anuj Manjarekar

Aeronautical Engineer

Number of Classes 

Lectures

8

Number of Classes 

Tutorial

2

Per Month

Total Classes

10

Price Per Month

Group Classes

25

BD

Price Per Month

Private

40

BD

Module Learning Outcomes

By the end of this course, students should be able to

  • Quantify the concept of displacement, velocity and acceleration in two dimensions
  • Apply kinematic equations to analyse the motion of point particles in one and two dimensions.
  • Apply the newtons laws of motion on a system of point masses
  • Use free-body diagrams to understand forces acting on objects and solve problems involving friction, tension, and normal forces.
  • Define work, kinetic energy, potential energy, and the work-energy theorem.
  • Solve problems involving conservation of mechanical energy and power in mechanical systems.
  • Explain the relationship between momentum, impulse, and force.
  • Solve collision problems using the principle of conservation of momentum.
  • • Distinguish between linear and rotational motion.
  • Apply concepts of torque, rotational inertia, and angular momentum to physical systems.
  • • Explain simple harmonic motion, including the motion of pendulums and springs.
  • Understand the properties of waves and solve problems involving wave speed, frequency, and wavelength.

Course Outline

01 -03-02

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