Physics Lectures - preDoctr.pk

Vectors and Equilibrium

Vectors and Equilibrium – Introduction
Vectors and Equilibrium – Lecture 1
Vectors and Equilibrium – Lecture 2

Force and Motion

Work and Energy

Rotational and Circular Motion

Fluid Dynamics

Waves

Thermodynamics

Electrostatics

Current Electricity

Syllabus Introduction
Lecture 1: Introduction to Current Electricity
Lecture 2: Internal Resistance, Series and Parallel Form, Electrical Power, Maximum Power, Kilowatt Hour
Lecture 3: Electric Potential and EMF
Lecture 4: Series Circuit, Parallel Circuit, Temperature Coefficient of Resistance and Resistivity
Lecture 5: Steady Current, Ohm’s Law, Resistance
Lecture 6: Tricks Related to Resistance and Resistivity
Lecture 7: Charging and Discharging a Battery

Course Content

Vectors and Equilibrium

Vectors and Equilibrium – Introduction

Vectors and Equilibrium – Lecture 1

Vectors and Equilibrium – Lecture 2

Force and Motion

Force and Motion – Syllabus Introduction

Lecture 1 — Kinematics

Lecture 2 — Graphs and Equations of Motion

Lecture 3 — Projectile Motion

Lecture 4 — Newton’s Laws and Momentum

Work and Energy

Syllabus Introduction – Work and Energy

Lecture 1 — Concepts of work done

Lecture 2 — Energy, K.E, P.E

Lecture 3 — Absolute Potential Energy

Lecture 4 — Work energy theorem and efficiency

Lecture 5 — Conservative and non conservative force

Lecture 6 — Power

Rotational and Circular Motion

Rotational and Circular Motion – Syllabus Introduction

Lecture 1 — Properties of Circular Motion

Lecture 2 — Angular Velocity and Angular Displacement

Lecture 3 — Linear and Angular Acceleration

Lecture 4 — Conceptual Questions

Fluid Dynamics

Fluid Dynamics – Syllabus Introduction

Lecture 1 — Viscosity

Lecture 2 — Drag Force

Lecture 3 — Stroke’s Law and Terminal Velocity

Lecture 4 — Fluid Flow

Lecture 5 — Bernoulli’s Equation

Lecture 6 — Conceptual Question

Waves

Waves — Syllabus Introduction

Waves — Lecture 1 – Simple harmonic motion and its example

Waves — Lecture 2 – Wave speed, Newtown calculation Laplace correction

Waves — Lecture 3 – Wave, wave types and wave motion

Waves — Lecture 4 – Superposition of waves and its cases

Waves — Lecture 5 – Beats and stretched string

Waves — Lecture 6 – Organ Pipes

Thermodynamics

Thermodynamics – Syllabus Introduction

Lecture 1 (Basic terminologies)

Lecture 2 – Thermodynamic process and thermal equilibrium

Lecture 3 – Specific Heat

Lecture 4 – First law of Thermodynamics

Electrostatics

Electrostatics — Syllabus Introduction

Electrostatics — Lecture 1 – Introduction to Electrostatics

Electrostatics — Lecture 2 – Columb’s Law

Electrostatics — Lecture 3 – Electric Fields

Electrostatics — Lecture 4 – Electrical Potential Energy due to a point charge

Electrostatics — Lecture 5 – Electric Potential

Electrostatics — Lecture 6 – Capacitor, Charging and Discharging a capacitor

Current Electricity

Syllabus Introduction

Lecture 1: Introduction to Current Electricity

Lecture 2: Internal Resistance, Series and Parallel Form, Electrical Power, Maximum Power, Kilowatt Hour

Lecture 3: Electric Potential and EMF

Lecture 4: Series Circuit, Parallel Circuit, Temperature Coefficient of Resistance and Resistivity

Lecture 5: Steady Current, Ohm’s Law, Resistance

Lecture 6: Tricks Related to Resistance and Resistivity

Lecture 7: Charging and Discharging a Battery

Electromagnetism

Electromagnetism – Syllabus Introduction

Lecture 1 – Magnetic Field

Lecture 2 – Magnetic Flux

Lecture 3 – Magnetic Field Representation and Characteristics

Lecture 4 – Force on Moving Charge Inside Magnetic Field

Lecture 5 – Ampere’s Law

Lecture 6 – Oesterd Points

Electromagnetic Induction

Electromagnetic Induction – Syllabus Introduction

Lecture 1 – Faraday’s Law, Lenz’s Law

Lecture 2 – Transformer

Lecture 3 – Step up step down transformer, Eddy current, hysteresis

Alternating Current

Alternating Current — Syllabus Introduction

Alternating Current — Lecture 1 – current types and phase_