Small object.
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.
A physical model is a smaller or larger physical copy of an object. The object being modelled may be small (for example, an atom) or large (for example, the Solar System). Simulations are performed tests.
If the MASS of the 1st Object in a COLLISION is too small to generate a FORCE large enough to overcome the INERTIA of the 2nd Object, then the more massive Object will not move. This could make it look like the more massive object is not REACTING to the Collision.
Yes. Food is digested and absorbed by the body from the mouth to the small intestine. The large intestine and colon collect the undigested material and mix it with enough water to help it slide out of the body easier than if it were a dry solid mass.
Yes, an earthworm has a large intestine and a small intestine.
Because it is lighter.
It is not! According to Newton's law the exact opposite is true.
an object's acceleration depends on the object's mass and the force applied to it. the lager the force applied to it.
The physical size doesn't matter. The ability to stop (or start) an object depends on its mass. For example, a bowling ball has more mass than a large balloon or sofa cushion. Smaller masses are easier to stop (or start).
no, large apples bruise easier. (:
Larger object.
the large object spreads the water out more evenly over it's area because it's large while the small object has less space to do so.
It's relative to what you define as a small object.
a larger object
Because of the large object has more surface area.
your body
False. The momentum of an object is given by the mass times the velocity of the object. Hence, a low-mass object must have a large velocity to have a large momentum.