This is an activity-based simulation where you'll reduce the friction to release the block and note the depth it falls down to. This way you'll find the relation between the translation of different masses due to conservation of energy.
In this simulation, you'll observe the difference ...
In this simulation, a rubber bullet is aimed and f...
In this simulation, we'll dive deeper into the con...
In this simulation, a variable force (which can be...
In this simulation, a bowling pin is projected int...
In this simulation, 3 motions are compared with ea...
In this simulation, a block oscillates due to an o...
Three particles A, B, and C are situated at the ve...
Escape velocity is defined as the speed at which a...
The simulation shows how the multiple bodies place...
A satellite is an object that moves around a large...
In 1687 the physicist Isaac Newton presented the f...
Fluid pressure can be defined as the measurement o...
A pseudo force, also called a fictitious force o...
The buoyant force is the upward force exerted on a...
This simulation consists of a block kept on smooth...
This is an activity-based simulation where you'll ...
Two blocks of masses m1 and m2 are connected by a ...
This simulation shows the Displacement-time graph ...
One of the most important things illustrated by pr...
A balloon is going up with 5 m/s and a ball is rel...
Simulation shows two blocks of equal mass connecte...
Damping is an influence within or upon an oscillat...
Classic relative motion simulation for higher rete...
An accelerating object A chases object B moving wi...
This simulation demonstrates the apparent speed an...
‘Homopolar motor’ refers to a motor operated...
This self-learn simulation on working of galvanome...
A charge is kept between 2 unequal positive charge...
This simulation is dedicated to explain the workin...
A completely mesmerizing simulation representing f...
This simulation explains the concept of polarizati...
In this simulation, you'll get to see the fundamen...
This simulation effectively and easily describes t...
A simulation to learn how dispersion and deviation...
An isochrone curve (iso - equal, and chrono - time...
Interactive simulation describing basic ray diagra...
This audio spectrum analyzer enables you to see th...
In this simulation, a satellite is projected away ...
The simulation intuitively proves that a simple pe...
A conducting spherical shell with inner radius a a...
When charges are released perpendicularly to the e...
Learn about refraction through plane and curved su...
In this simulation, hold and drag the magnet using...
Basic concepts of velocity and acceleration are sh...
This is a 3D simulation of a charged particle movi...
A must-have DIY for teachers and students to under...
This sound-enabled simulation gives us breathtakin...
This simulation shows a charge first placed in an ...
This simulation describes the concept of rotationa...
The oscillatory motion of charge with its graph an...
This is a 3D simulation of a conical pendulum. A c...
This simulation takes up the concept of reflection...
The main function of a full wave rectifier is to c...
This simulation is to engage students to intuitive...
In this simulation, charges can be added to/remove...
This simulation makes it easy to visualize the res...
The concept of toppling and conditions resulting f...
In this simulation, the trains are given velocitie...
This simulation demonstrates how a fan regulator w...
3 different charges enter a magnetic region where ...
An interactive simulation on the working of galvan...
This is a 3D simulation of how the moon revolves a...
In this simulation, you can change the position of...
The block attached to the spring is seen performin...
This experimental simulation on Screw Gauge is one...
This is a simulation of surface wave interference ...
This simulation demonstrates the effect on dipoles...
It demonstrates the conservation of momentum in mi...
The motion of the center of mass is invariant of i...
This simulation flexes the power of Simphy, i.e. f...
In this simulation, you'll understand the basics o...
A platform put on two cylinders rolling in opposi...
In this simulation, we can change values of fricti...
Cyclotron works on the principle that a charged pa...
A completely mesmerizing 3D simulation representin...
Highly resourceful simulation to understand wave n...
A tuning fork is a narrow, two-pronged steel bar t...
Basic simulation showing the force on uniformly mo...
This simulation lets you change the colors on a re...
Simulation demonstrates the variation of energy of...
This simulation is a sample of how JEE Advanced qu...
In this simulation, we not only get to understand ...
This is a simple model of how a gravitational assi...
This simulation shows wave ripples in 3d, where th...
In this simulation, you'll learn how standing wave...
Electric circuits that convert AC to DC are known ...
Diffusion is the process whereby gaseous atoms and...
This is a simulation of the processes involved in ...
This simulation is to give an idea of how fast or ...
This is a sound-enabled interactive simulation to ...
This car can be controlled by keys A & D to accele...
This simulation allows you to change the focal len...
This simulation shows you how magnetic field lines...
A vernier caliper is defined as a measuring device...
This experimental simulation demonstrates the work...
A homopolar motor is a direct current electric mot...
In this simulation, we compare the final velocitie...
Current flows from positive to negative and electr...
This experimental simulation is great in visualizi...
In this simulation, a light of certain energy is p...
This simulation is not only great for understandin...
A Van de Graaff generator is an electrostatic gene...
The stopping distance is the distance travelled be...
