mechanical energy
conserved energy
If the object's falling energy increases (this would happen if the object is already falling downward, and air resistance is small), then the kinetic energy will increase.
Weight is how great or small the affect of gravity is on an object, whereas mass is the amount of physical particles in an object.
Photons are small bundles of energy that make up light. Scientists consider photons to be elementary particles which are a quantum or measurement of light.
One way would be to use a small object. Another way is to place the object where it has least distance to fall.
Maybe and maybe not. It depends on the speed of the two objects. A small object moving very fast might have more kinetic energy than a large object moving slowly.
Particles.
active transport
Some interesting facts on particles are: the are a very small part,portion or speck of an object like poo
A nanoparticle is a small object which behaves as a unit in terms of its transport and properties.
If the object's falling energy increases (this would happen if the object is already falling downward, and air resistance is small), then the kinetic energy will increase.
You don't say what speed the small object has. If both have the same speed then the heavier one will have more kinetic energy.
Weight is how great or small the affect of gravity is on an object, whereas mass is the amount of physical particles in an object.
An atom is a collection of small Particles making up an object Making up an element.
No, they are made of atoms, ions or molecules, or other small particles that are not cells.
An atom is a collection of small Particles making up an object Making up an element.
Please be more specific. Small respect to what? Are you talking about the motion of atoms or the motion of sub atomic particles?
Heat is the total energy of molecular motion in a substance; temperature is a measure of the average energy of molecular motion in a substance. Heat energy depends on the speed of the particles, the number of particles (the size or mass), and the type of particles in an object. Temperature does not depend on the size or type of object. For example, the temperature of a small cup of water might be the same as the temperature of a large tub of water, but the tub of water has more heat because it has more water and thus more total thermal energy.