Energy - Javalab

Free Fall Experiment 2

2024-08-212024-08-21

This simulation allows you to measure speed as a function of fall height. You can measure the speed at two locations and change the ruler’s orientation. Free fall movement All objects on Earth are affected by … more

Free Fall Experiment

2024-05-132024-05-12

This simulation allows you to measure speed as a function of fall height. Free fall movement All objects on Earth are affected by gravity. If there were no friction with air, the speed of any object … more

Gear

2024-11-052024-01-29

Gear In general gears, the direction of rotation is reversed each time it is bitten. By adjusting the radius ratio of the gear, you can adjust the rotational angular speed and torque. When power is transmitted … more

Newton’s Cradle

2025-02-142023-04-24

Newton’s cradle Newton’s cradle consists of five iron balls, each hanging on two threads to prevent the ball from spinning. Originally Newton’s cradle was created to demonstrate Newton’s third law. If you collide a ball from … more

Mechanical Energy Conversion 2

2025-02-122023-04-05

Mechanical energy As the roller coaster descends from a high place, the height decreases, and the speed increases, so the potential energy decreases, and the kinetic energy increases. Therefore, potential energy is converted into kinetic energy … more

Moment of Inertia

2023-12-112023-04-01

This simulation assumes that there is rolling friction and no sliding friction. The cylinder and cube assumed the density of iron (7.874 g/cm³). Why does a rolling object go down slower than an object that slides … more

AC Power Generator

2023-12-092023-02-13

Electromagnetic induction Moving a magnet around a coil changes the magnetic field inside the coil, which causes current to flow through the coil. This phenomenon is called ‘electromagnetic induction’; the current flowing through the coil is … more

Incandescent light bulb (heat dissipation of resistance)

2024-02-022022-10-12

Resistance Materials have different degrees of impeding the flow of electric current depending on their type and shape. Most materials, except metals, do not conduct current well. On the other hand, metals have low resistance and … more

Kinetic Energy

2023-12-112021-05-10

Kinetic energy All moving objects have kinetic energy. The kinetic energy Ek of an object with a mass of ‘m’ and a velocity of ‘v’ can be calculated as follows. \[E_{ k }=\frac { 1 }{ … more

Elastic energy

2024-06-022021-05-05

Elastic (potential) energy stored in the spring The elastic energy is stored in the deformed spring. Also called ‘potential energy,’ and denoted by Ep. $Elastic \;energy \;E_p(J) = \frac{1}{2}kx^2$ m: Mass (kg) k: Spring … more

Ionic Bond

2024-08-292021-03-21

Formation and energy of the ionic bonds Metal atoms have strong properties to lose electrons and become cations. On the contrary, non-metallic atoms have strong properties to obtain electrons and become anions. As these two particles … more

Where did the droplet’s energy go? (The second law of thermodynamics and irreversible phenomena)

2023-12-112021-02-07

* In this simulation, the attraction between particles is not considered. Where did the droplet’s energy go? Let’s think about the free fall of a water drop. From a macro perspective, falling water droplets change position … more