i think air, but I'm not sure I'm only 11
An aluminum cube would weigh less in water than in air. This is because water exerts an upward buoyant force on objects submerged in it, which partially offsets the downward force of gravity acting on the cube.
Objects weigh less in water than they do in air because of the buoyant force exerted by the water. This force counteracts the weight of the object, making it feel lighter or even weightless when submerged in water.
They are not really lighter, they only seem lighter. Objects weigh the same in water as in air, but in the water, there is an additional force, of the water pushing the object up.
You would weigh more in the air than in the water due to the buoyant force acting against your weight in the water. In water, your body experiences an upward force opposing gravity, causing you to feel lighter. This effect makes you weigh less in water compared to being in the air.
Air pockets in water decrease the overall density of the water, causing objects to float more easily due to increased buoyancy.
Objects are more buoyant in water than in air.
An aluminum cube would weigh less in water than in air. This is because water exerts an upward buoyant force on objects submerged in it, which partially offsets the downward force of gravity acting on the cube.
Objects weigh less in water than they do in air because of the buoyant force exerted by the water. This force counteracts the weight of the object, making it feel lighter or even weightless when submerged in water.
They are not really lighter, they only seem lighter. Objects weigh the same in water as in air, but in the water, there is an additional force, of the water pushing the object up.
You would weigh more in the air than in the water due to the buoyant force acting against your weight in the water. In water, your body experiences an upward force opposing gravity, causing you to feel lighter. This effect makes you weigh less in water compared to being in the air.
Air pockets in water decrease the overall density of the water, causing objects to float more easily due to increased buoyancy.
Air is more buoyant than water because it has a lower density. The density of an object determines its buoyancy - objects with lower density than the fluid they are in will float. Air is less dense than water, so objects are more likely to float in air than in water.
An object will typically weigh less in water compared to in air, due to the buoyant force acting on it when submerged. This is because the water exerts an upward force on the object, partially offsetting its weight.
Need more info. Either the volume or density of the stone. From the info given all we know is that it will weigh less in the water than in the air.
No, a rock does not weigh more in water. When submerged in water, the rock displaces an amount of water equal to its own volume, leading to a buoyant force that reduces its apparent weight. So, the rock will weigh less in water compared to in air.
You can lift heavy objects more easily in water than in air because water provides more buoyant force than air due to its higher density. This buoyant force counteracts the weight of the object, making it feel lighter in water.
Objects do not actually weigh more in a vacuum compared to in air. Weight is the force exerted on an object due to gravity, and this force remains constant regardless of the medium the object is in. However, objects may appear to weigh more in a vacuum because there is no buoyant force acting on them, which is present in air and can partially counteract the force of gravity. This lack of buoyant force in a vacuum can make objects seem heavier when compared to their weight in air.