Skip to content- Kinematic Equations
- Distance and Displacement
- Velocity and Acceleration
- Relative Velocity
- Vectors and Scalars
- Laws of Vector
- Velocity Vector
- Projectile Motion
- Uniform Circular Motion
- Kinematics Problems
- Newton’s Laws of Motion
- Applications of Newton’s Law
- Laws of Motion Problems
- Work Done Physics
- Center of Mass
- Velocity and Acceleration of Center of Mass
- System of Particles and Collision
- Friction
- Angular Motion
- Kinetic Energy of Rotation and Moment of Inertia
- Acceleration due to gravity
- Effect of Gravity on Fluid Pressure
- Bernoulli’s Theorem
- Critical Velocity
- Elastic Behavior
- Gravitational potential energy and gravitational potential
- Kepler’s law of planetary motion
- Hooke’s Law
- Pascal’s law
- Stoke’s Law
- Streamline and Turbulent flow
- Stress-Strain Relationship
- Terminal Velocity
- Universal law of gravitation
- Viscosity
- Excess of Pressure across a Curved Surface
- Application of Surface Tension Ideas to Drops
- Young’s Modulus
- Bulk Modulus
- Bubbles and Capillary Rise
- Shear Modulus of Rigidity
- Poisson’s Ratio
- Elastic Energy
- Geo-stationary satellite
- Orbital velocity of a satellite
- Escape velocity
- Angle of Contact
- Surface Energy and Surface Tension
- Thermal conductivity
- Heat, temperature, thermal expansion
- Reversible and Irreversible Process
- Isothermal and adiabatic processes
- Heat Engine and Refrigerator
- Heat transfer- Radiation
- Heat transfer- Convection
- Heat transfer- Conduction
- Heat, Work, and Internal Energy
- First Law of Thermodynamics
- Zeroth law of thermodynamics
- Work Done in Compressing a Gas
- Kinetic Theory of Gases – Assumptions
- Equation of State of a Perfect Gas
- Law of Equi-Partition of Energy
- Kinetic Theory of Gases – Concept of Pressure
- Thermal Expansion of Solids
- Anomalous Expansion of Water
- Degrees of Freedom
- RMS Speed of Gas Molecules
- Latent Heat Capacity
- Thermal Expansion of Liquids
- Thermal Expansion of Gasses
- Change of State
- Specific Heat Capacity
- Cp, Cv – calorimetry
- Avogadro’s Number
- Concept of Mean Free Path
- Oscillations of a spring-restoring force and force constant
- Phase
- Periodic motion – time period, frequency, displacement as a function of time
- Wein’s Displacement Law
- Qualitative Ideas of Black-Body Radiation
- Simple Pendulum Derivation of Expression for its Time Period
- Simple Harmonic motion and its equation
- Free, Forced, Damped Oscillations and Resonance
- Periodic Functions
- Beats of waves
- Reflection of Waves
- Stefan’s Law
- Fundamental Mode and Harmonics
- Greenhouse Effect
- Standing Waves in Strings and Organ Pipes
- Transverse wave and longitudinal wave
- Speed of Wave Motion
- Wave Motion
- Doppler Effect
- Displacement Relation for a Progressive Wave
- Principle of Superposition of Waves
- Coulomb’s Law
- Electric Flux and Dipole
- Forces Between Charges
- Electric Field
- Gauss’s Law
- Capacitors and Capacitance
- Electric Potential
- Relation Between Potential and Electric Dipole
- Capacitance Problems
- Concept of Magnetic field
- Ampere’s Law
- Biot – Savart law
- Carbon resistors
- Cyclotron
- Electric current
- Force on A Current-Carrying Conductor in A Uniform Magnetic Field
- Carrying Conductors
- Force on A Moving Charge in Uniform Magnetic and Electric Fields
- Internal resistance of the cell
- Kirchhoff’s law
- Measurement of internal resistance of the cell
- Ohm’s law
- Potentiometer
- Straight and Toroidal Solenoids
- Moving Coil Galvanometer
- Wheatstone bridge
- Electromagnets
- Magnetic Field Lines
- Magnetic Elements
- Earth’s Magnetic Field
- Paramagnetic, Diamagnetic and Ferromagnetic Substances
- Self and mutual induction
- Bar Magnet as An Equivalent Solenoid
- Magnetic Field Intensity Due to A Magnetic Dipole
- Eddy current
- Magnetic Dipole Moment of A Revolving Electron
- Faraday’s law
- Lenz’s law
- Current Loop as A Magnetic Dipole
- Induced EMF and current
- Permanent Magnets
- Refraction at Spherical Surfaces
- Refraction of Light
- Optical Fibers
- Lenses
- Lens Maker’s Formula
- Thin Lens Formula
- Reflection of Light
- Mirror Formula
- Spherical Mirrors
- Total Internal Reflection of Light
- Wattless current
- LCR series circuit
- LC oscillations
- Reactance and impedance
- Resonance
- Power in AC circuit
- Peak and RMS value of alternating current
- AC generator and transformer
- Resolving Power of Microscopes and Astronomical Telescopes
- Brewster’s Law
- Power of A Lens
- Scattering of the Light
- Refraction and Dispersion of Light Through A Prism
- Microscopes and Astronomical Telescopes
- Huygens’s Principle
- Proof of laws of reflection and refraction
- Interference Young’s Double Slit Experiment
- Single Slit Diffraction
- Davidson and Germer experiment
- Photoelectric effect
- Hertz and Lenard’s observation
- Einstein’s photoelectric effect
- Dual nature of radiation
- Matter waves, wave nature of particles and de Broglie effect
- Nuclear Fission
- Composition and Size of Isotopes
- Electromagnetic spectrum
- Bandwidth of signals
- Bandwidth of transmission
- Composition and size of Isobars
- Composition and size of Isotones
- Mass Defect
- Binding Energy per Nucleon
- Junction transistor
- p-n junction diodes
- Alpha particle scattering material
- Rutherford’s model of the atom
- Radioactivity Alpha, Beta and Gamma
- Bohr model
- Radioactive Decay Law
- Hydrogen spectrum
- Energy levels
- Energy bands in conductors, semiconductors and insulators
- Need for modulation, amplitude modulation and frequency modulation
- Propagation of electromagnetic waves
- Internet, mobile telephony and global positioning system (GPS)
- Nuclear Fusion
- Composition and Size of the Nucleus
- Composition and Size of Atomic Masses
- What Is Electricity? – The Fact Site
