Yes, according to Special Relativity, if you raise it, its energy will increase - and therefore also its mass. The effect is insignificant for "normal" gravity; in extreme cases, such as a neutron star, the effect may be noticeable.
Yes, according to Special Relativity, if you raise it, its energy will increase - and therefore also its mass. The effect is insignificant for "normal" gravity; in extreme cases, such as a neutron star, the effect may be noticeable.
Yes, according to Special Relativity, if you raise it, its energy will increase - and therefore also its mass. The effect is insignificant for "normal" gravity; in extreme cases, such as a neutron star, the effect may be noticeable.
Yes, according to Special Relativity, if you raise it, its energy will increase - and therefore also its mass. The effect is insignificant for "normal" gravity; in extreme cases, such as a neutron star, the effect may be noticeable.
In classical physics, no. However when analyzing mass with a modern physics approach, the mass of an object may have some correlation to the strength of a Higgs Field at the particular location.
Yes, according to Special Relativity, if you raise it, its energy will increase - and therefore also its mass. The effect is insignificant for "normal" gravity; in extreme cases, such as a neutron star, the effect may be noticeable.
Momentum=mass*velocity
Momentum = mass x velocity.
The distance between objects and the different is 0. The distance between the mass and an object is 1.
well the relationship between mass and force is..........*relationship... Force=mass x acceleration
the relitionship is good because there really friendly
The mass of the objects and the distance between them.
Describe the relationship between mass and weight.
-- the mass of both objects -- the distance between their centers of mass
The answer depends on the slope of which graph.
because the formula for density is mass times volume. Which equals density.
The force of gravity is directly proportional to the product of the masses.
The more massive the mass, the larger the force of gravity The further the distance, the smaller the force of gravity, however gravity is infinite so no matter how far away from any size mass an object is it will always feel the force of gravity from that mass