kinetic
Buoyancy
A spring apparatus is often used to figure out the force constant of a spring. It has a ruler, spring (with a circular platform to add masses on) and a needle (place at 0 on the ruler). Because force and distance are directly proportional, as you add masses and see the distance on the ruler you can easily figure out the force constant with the equation Fe = kx , where Fe = FG = mg
You compress it Well, it ALL depends on how hard you push down on the spring.
The energy stored in a spring when it is compressed or expanded. See related link.
both electric and magnetic energy
Potential energy stored in a spring => kinetic energy of a toy
Potential energy.
it has potential and kinetic energy and if i was u i would study more
when you wind up a clockwork toy, the spring inside of it twists and that called strain energy, then when you let go of the toy the spring unwinds and toy toy moves which is kinetic energy and it may also make a sound as well.
Kinetic energy and potential energy is stored in the wound-up spring or gear of the toy mechanism.It is called conservation of energy.
when you wind the spring tighter it gets more potential energy.when you release the toy the spring unwinds.it turns into kinetic energy.
It becomes kinetic energy of the toy (plus some heat).
Whatever winds the tool up - usually energy stored in your muscles.
Often as elastic energy in a compressed spring.
The types of potential energy is stored in a clockwork toys are type of potential energy is stored in a clockwork toy
potential energy ONLY
The mechanical energy is stored in the spring as potential energy within the pullback toy and when you release it, it gets converted into kinetic energy. Hence cycle is Mechanical --- Spring (Potential)--- Kinetic