To give them the most energy, you must put them into particle accelerators. The atoms must be ionized so that they have an electric charge. Charged particles can be accelerated to almost the speed of light, given the right equipment and lots of energy. The large hadron collider is such a machine.
Answer #1:
Put them into a particle accelerator. .
============================
Answer #2:
Using things you already have around the house . . .
1). Heat the object on the stove burner until it's almost ready to melt.
then quickly
2). Drop it from a great height. The greater the better.
Heat generally
That sounds like a description of TEMPERATURE. However, please note that this is only an approximation; it's actually quite tricky to give a precise definition of temperature.
It is kinetic energy of individual moving particles. It could be considered potential though, as in: the body with higher temperature has a potential to do work, passing its thermal energy to lower temperature body.AnswerNeither, 'heat' is simply the name we give to energy in transit from a higher temperature to a lower temperature.
Energy cannot be made or destroyed only changed from one energy to another. e.g in a car when you are moving you are producing kinetic energy but when you apply the brakes to slow down you are changing the kinetic energy to heat energy through the brakes.
Thermal energy (heat) and Kinetic energy (movement).
Hydroelectric. Kinetic energy, as it is constantly moving.
what do you
That sounds like a description of TEMPERATURE. However, please note that this is only an approximation; it's actually quite tricky to give a precise definition of temperature.
It is kinetic energy of individual moving particles. It could be considered potential though, as in: the body with higher temperature has a potential to do work, passing its thermal energy to lower temperature body.AnswerNeither, 'heat' is simply the name we give to energy in transit from a higher temperature to a lower temperature.
True... Technically, yes. The faster the particles move, the more heat they give off. So therefore, when we actually take a temperature, it is in theory, the measrue of the speed of the particles. Improvement: Temperature is defined as the average kinetic energy of the particles in a particular substance. Kinetic energy is associated with the speed of particles by KE=(1/2)mv2. Particles do not technically 'give off heat' when they move since by laws of thermodynamics heat is a transfer of energy between substances and the term does not apply in this circumstance.
you have to give it potential energy before it is kinetic
Energy cannot be made or destroyed only changed from one energy to another. e.g in a car when you are moving you are producing kinetic energy but when you apply the brakes to slow down you are changing the kinetic energy to heat energy through the brakes.
Ice is cool because they particles are slowing down, causing the to give off less kinetic energy, and therefore less heat
Leaving the power on would cause over heating of wires because the passing electrons with kinetic and electrical energy will transfer the energy as thermal energy when it touches the nuclei. This thermal energy will give the nuclei particles more kinetic energy and therefore causing more of a blockage for the electrons to flow.
it give kinetic energy
The sum of potential and kinetic energy gives you the Mechanical Energy of the system
Typically higher. Consider a gas. The air you breath is made up of billions of particles flying around all over the place. When the air is warm, these particles move faster than if the air was cold. In that sense, temperature is higher if kinetic energy is great.
Heat energy is a form of kinetic energy because heat is related to the motion of particles. This means heat is a form of kinetic energy. Adding heat energy to an object makes it hotter and causes its particles to move faster. That is why heat energy is a form of kinetic energy.AnswerHeat is the name we give to energy in transit from a warmer body to a cooler body. So it's NOT a form of 'kinetic energy'; what the original answer defines is 'internal energy', not heat!