One sort of energy is transformed to another, so that energy is never destroyed, it just keeps changing its form. Matter can also be changed into energy, so any given piece of matter can continue to exist in one form or another. For example, if you create appropriate conditions across a wire, the electrons in the wire will acquire the kinetic energy to move along the wire, this creates electricity, the electricity can then generate heat on a stove, and water in a pot can absorb this heat to boil. Electrons moving, heat, and water changing to steam all involve using the same energy. As an example involving mass, one can put a certain amount of fuel in a rocket, and its mass will decrease as the rocket burns the fuel in a chemical reaction in order to take off and fly.
Energy can be conserved by turning off the lights
You can save the energy of the sun in heat retaining objects. Let the sun heat up water in a clear topped box then put that water underground.
Unplug cords,turning lights off and fans off
through power plants and stuff like that
By using the resource less and letting it regenerate.Also letting it being able to conserve more energy that is if it is a energy resource
Wind energy and fuel made of corn.
by matter and energy
By geysers
There is no difference between the two, it's just another way of wording the phrase.
Momentum is conserved in a collision. If two cars have the same mass and are traveling at the same speed and collide headfirst, the momentum of both cars cancel each other out and they will be motionless. If one has greater speed or mass than the other, it will still have the difference in momentum after the collision.
Energy and electrical charge are two quantities that are always conserved in nuclear decay equation.
in law of conservation of energy ENERGY IS CONSERVED and in law of conservation of momentum MOMENTUM IS CONSERVED. There's not similarity in these two laws. expect that in both laws , one quantity is conserved.
Momentum is always conserved in any type of collision. Energy conservation, however, is dependant on elasticity. In a perfectly elastic collision all energy is conserved.
recycle and continue to use
recycle and continue to use
by switching off the electrial items in the absence of any person
Momentum is conserved when two objects collide in a closed system.
Energy conservation can be defined as when we save energy. Examples : when we have two bulbs lighting and we take off one.
By using the resource less and letting it regenerate.Also letting it being able to conserve more energy that is if it is a energy resource
I don't think the theory changed anything. In classical mechanics, energy is conserved; in the theory of relativity, energy is also conserved. Also note that there are two "theories of relativity"; you may want to clarify which one you are talking about. In any case, it is my understanding that energy is conserved in both cases.
The momentum of the two lumps of clay are the same since the momentum is the same before and after the collision. The kinetic energy is not conserved but transformed into gravitational potential energy (GPE) since the position of motion has changed. *Keep in mind: KE is the energy of motion. GPE is the energy that something posses due to its position. :)