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Increasing the weight of the object and the smoothness of the surface the object is on (the less smooth the more friction)
Weight changes with altitude, or elevation with respect to the earth. This only happens because the further one is from the planet, the weaker the value of g.
The mass of an object does not change , but its weight can vary.
Gravitygravity
Increasing, because the volume of displaced fluid, and therefore the weight of displaced fluid, is increasing.
Pressure drops at higher elevations because of the decrease in the weight of air. Under the water, pressure climbs with increasing depth because of the combined weight of the water and that of the atmosphere.
Mass does not change with changes in altitude or elevation. Weight on the other hand does change. However, on earth the change from sea level to the top of a mountain would be extremely small.
The mass of an object does not change , but its weight can vary.
Increasing the weight of the object and the smoothness of the surface the object is on (the less smooth the more friction)
Such an object's mass would not change, or it wouldn't change significantly. Its weight will be reduced, approximately by a factor of 6.
No. The mass of an object doesn't change (Law of Conservation of Mass), therefore its weight won't change either (weight = mass x gravity).
Weight changes with altitude, or elevation with respect to the earth. This only happens because the further one is from the planet, the weaker the value of g.
The mass of an object does not change , but its weight can vary.
The mass of an object does not change , but its weight can vary.
No, the measured weight of an object WILL change but the mass of an object will never change regardless of the gravitational force on object.
Gravitygravity
Increasing, because the volume of displaced fluid, and therefore the weight of displaced fluid, is increasing.