⬡ Interactive Learning Platform

Physics
Simulation Lab

Explore the laws of the universe through interactive, visual simulations designed for deep understanding.

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Simulations

12

Topics

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Curiosity

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Kinematics

Motion & Trajectories

Projectile Motion

Explore trajectory, velocity components, max height and range.

1D Motion (Graphs)

Visualize position–time, velocity–time, and acceleration–time graphs. Understand slope, area, and constant vs variable acceleration.

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Dynamics

Newton's Laws of Motion

Newton's Laws of Motion

Explore F = ma, inertia, action–reaction, mass effect, and friction using an interactive block simulation.

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Work & Energy

Conservation & Transformation

Work–Energy Theorem

Visualize how applied force and friction change kinetic energy. Learn why net work equals the change in KE.

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Oscillations

SHM & Periodic Motion

Simple Harmonic Motion

Understand displacement, velocity, acceleration and phase.

Visualize kinetic & potential energy exchange while total energy remains constant.

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Waves

Propagation & Phenomena

Wave Motion (Transverse)

Explore transverse waves, crests, troughs, amplitude, frequency, and speed.

Sound Waves – Particle Model

Visualize sound as a longitudinal wave using moving particles. Learn pitch, loudness, and how wave speed depends on the medium.

Longitudinal Waves – Mathematical

Explore compressions and rarefactions using a sinusoidal wave model. Adjust amplitude, frequency, and wave speed directly.

Standing Waves on a String

Explore nodes, antinodes, harmonics, and resonance.

Visualize how relative motion between a source and observer changes the observed frequency. See wavefront compression and stretching.

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Circular Motion

Centripetal Dynamics

Uniform Circular Motion

Visualize velocity direction and centripetal acceleration.

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Ray Optics

Mirrors, Lenses & Vision

Ray Optics – Mirrors

Visualize image formation in concave and convex mirrors using principal rays. Explore real vs virtual images and magnification.

Ray Optics – Lenses

Explore image formation by convex and concave lenses. Observe real vs virtual images and changes in magnification.

Human Eye & Vision Defects

Visualize image formation on the retina. Explore near point, far point, Myopia, Hypermetropia, and corrective lenses.

Compound Microscope

Visualize two-stage image formation using objective and eyepiece lens. See why microscopes produce very high magnification.

Astronomical Telescope

Visualize how telescopes observe distant objects using parallel rays. Understand angular magnification and normal adjustment.

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Wave Optics

Interference & Diffraction

Young's Double Slit Experiment

Visualize interference of light from two coherent sources. Observe bright and dark fringes and how fringe width changes with parameters.

Single Slit Diffraction

Visualize diffraction of light through a narrow slit. Observe the central maximum and why a narrower slit produces a wider pattern.

Polarization of Light

Visualize unpolarized and plane-polarized light. Rotate polarizer and analyzer to see how intensity changes via Malus' Law (I = I₀cos²θ).

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Modern Physics

Quantum Mechanics & Beyond

Photoelectric Effect

Explore how light ejects electrons from a metal surface. Observe threshold frequency and why classical wave theory fails.

Atomic Models – Rutherford & Bohr

Compare Rutherford and Bohr atomic models through animation. Explore quantized energy levels and electron transitions.

Hydrogen Emission Spectrum

Explore the line spectrum of hydrogen. Visualize Lyman, Balmer, and Paschen series arising from quantized energy gaps.

de Broglie Matter Waves

Visualize the wave nature of particles using λ = h/p. See how wavelength changes with mass and velocity.

Heisenberg Uncertainty Principle

Explore why position and momentum can't both be precisely known. Visualize Δx · Δp ≥ ħ/2 through wave packets.

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Electrostatics

Fields, Charges & Potential

Electric Field Lines & Coulomb Force

Drag charges to see attraction and repulsion in real time. Observe field line density representing field strength.

Electric Potential & Equipotential Surfaces

Understand electric potential as a scalar and how equipotential lines are always perpendicular to field lines.

Parallel Plate Capacitor

Explore how charge and energy are stored. Visualize uniform electric field and how capacitance varies with plate geometry.

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Current Electricity

Ohm's Law & Circuits

Drift Velocity & Ohm's Law

Visualize current at the microscopic level. See electron drift and explore Ohm's Law by varying voltage and resistance.

Resistors in Series & Parallel

Visualize current flow, voltage drops, and equivalent resistance. Understand why parallel connections reduce total resistance.

Electrical Power & Joule Heating

Visualize electrical energy converted to heat. Explore P = VI, P = I²R, and P = V²/R in real time.

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Magnetic Effects & AC

Induction, Motors & Generators

Magnetic Field due to Current

Visualize fields around a straight wire, circular loop, and solenoid. Use the right-hand rule to understand field direction.

Force on a Current-Carrying Conductor

Explore how a conductor experiences force in a magnetic field using Fleming's Left-Hand Rule. The basis of electric motors.

Electromagnetic Induction (EMI)

Visualize how changing magnetic flux induces current. Move magnets and coils to see Faraday's and Lenz's laws in action.

AC Circuits (L, C, and R)

Explore alternating current with sinusoidal waveforms. Visualize phase differences and understand reactance and impedance.

Electric Motor & Generator

Visualize the working principles of motors and generators. See energy conversion tying together magnetism and EMI.