It depends on the level of acceleration in its reference frame. In general, the higher the acceleration, the higher the mass whether the acceleration comes from motion, or a large mass nearby...
this is so because mass is a measure of how much matter is present in an object. it has no relation to gravity and hence will not be affected by different positions throughout the universe
No, weight does change - weight is the gravitational force pulling on something but mass never changes.
Same
yessssss
It is normally believed that the Universe's total mass remains constant.
Mass.
Mass is a measure of how much matter something has. Weight is the effect of gravity pulling on that mass. So an object that weighs 1kg on Earth would weigh less on the Moon which has less gravity even though the mass of the object is constant. The relationship is: Force of gravity on an object in a certain place = (object's mass) x (acceleration of gravity in that place) .
Yes. The acceleration is directly proportional to the objects mass.For objects with constant mass however, the acceleration will remain constant.
The mass of an object is constant unless you physically add to it or cut part of it off. It will not increase when an object is pulled by a constant force.
Mass(m) is the product of the gravitational pull, which is constant (g), of the planet or the largest heavenly body nearest to the object to be weighed and it's weight(w). Hence, gravitational constant(g) is the ratio between the MASS of an object and the Weight of the object. While the mass of an object is constant anywhere in the universe, the weight depends on the value of the gravitational constant. Thus, a 1 lb-mass of an object in earth will have the same mass of 1 lb-mass in the moon though they will weigh differently.Mass is measured in kilograms, hectograms , decagrams , grams , decigrams ,centigrams , milligrams.
You can increase the density of an object with constant mass by decreasing the object's volume.
It is normally believed that the Universe's total mass remains constant.
The mass of an object remains the same everywhere in the universe.
F=ma, if F is constant and m is constant, then a is constant... its acceleration.
No, mass remains constant.
Mass.
Mass is a measure of how much matter something has. Weight is the effect of gravity pulling on that mass. So an object that weighs 1kg on Earth would weigh less on the Moon which has less gravity even though the mass of the object is constant. The relationship is: Force of gravity on an object in a certain place = (object's mass) x (acceleration of gravity in that place) .
Yes. The acceleration is directly proportional to the objects mass.For objects with constant mass however, the acceleration will remain constant.
Same
The Law of conservation of mass-energy indicates that the mass-energy of the universe is constantly changing to maintain the mass-energy constant.
The mass of an object is constant unless you physically add to it or cut part of it off. It will not increase when an object is pulled by a constant force.