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That is true because momentum is mass times velocity
No. Roughly speaking, the amount of heat energy in an object is the absolute temperature, times the mass of the object, times the material's heat capacity.
No.
No. Weight is a measure of the pull of gravity on the object, while mass is the amount of matter. An object always has mass, but does not necessarily have a weight.
Yes they are different things. Buoyant force is always upward. Weight is always downward. Also ... -- Weight depends on the object's mass. -- Buoyant force depends on its volume, and on what it's floating in.
That is true because momentum is mass times velocity
No. Roughly speaking, the amount of heat energy in an object is the absolute temperature, times the mass of the object, times the material's heat capacity.
No.
Mass is defined as the amount of matter in an object.
Such an object makes a larger dent in the fabric of space-time than an object with little mass. (It has a greater gravitational attraction than less massive objects)A greater force is required to accelerate such an object than a less massive object
No. Weight is a measure of the pull of gravity on the object, while mass is the amount of matter. An object always has mass, but does not necessarily have a weight.
No, the more mass of an object the more gravity it exerts.
Yes they are different things. Buoyant force is always upward. Weight is always downward. Also ... -- Weight depends on the object's mass. -- Buoyant force depends on its volume, and on what it's floating in.
Yes. The mass of an object is always the same, but the weight of an object depends on the force of gravity on it.
True
true
true