the mass is the same because think about it you made the object from its parts so they would be the same
The object's mass doesn't change, no matter where it is or where it goes.
the center mass of an object is in the center of such objects. you can find it by spining the object. :)
The moon has 1/6th the gravity of the Earth. If something weighed 60 pounds on Earth it would weigh ten pounds on the Moon. The mass of the object would not change, as mass is the measurement of how much stuff you are.
The mass of an object doesn't depend on the gravitational force on the object.
No. The mass of an object does not change. However and object's weight, which is a function of mass and gravity, is less on the moon than on earth.
the mass is the same because think about it you made the object from its parts so they would be the same
there is no change in the mass of body
The object's mass doesn't change, no matter where it is or where it goes.
The shape of an object bears no relation to the mass of an object.
The only "weigh" to determine the mass of an object is to compare it with the mass of a known object. The mass of an object is determined by force and acceleration.
mass is how much matter is in an object and weight is the gravitational pull on an object mass x gravity = weight
Mass is the amount of matter in an object and volume is the amount of space an object takes up
1. Rusting is an oxidation reaction of iron.2. The mass of an object increase after rusting.
The mass would be greater
A spring device can only measure an object's weight. In order to find its mass, you then have to either compare its weight with the weight of a known mass, or else use the value of gravitational acceleration to calculate the mass from the weight.
Reducing the distance between them. In theory, also increasing the mass; but you can't really change the mass of an object. However, you can compare the forces if you replace an object by a different object, which has a different mass.
No, unless you compare objects on different planets. Weight = mass x gravity, so if gravity remains constant, more mass means more weight.