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Is The buoyant force on an object depends on the volume of the object that is underwater?
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Does the weight of an object immersed in a buoyant liquid affect the buoyant force on the object?
It is not the weight of the immersed object but the volume of the object would affect the buoyant force on the immersed object because the buoyant force is nothing but the weight of the displaced liquid whose volume is equal to that of the immersed object.
Does the buoyant force on a submerged object depend on the volume of the object ir the weight of the object?
On its volume.
True or false an object buoyant force and weight arent the same thing?
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.
How much buoyant force acts upon a balloon that weights 1 N?
The buoyant force doesn't depend on the object's weight. It depends on theobject's volume, which the question doesn't reveal.
Why will be the buoyant force more if the volume of the object is more?
More volume means that the object displaces more water. The buoyant force is exactly equal to the weight of the displaced water. Or other liquid.
What is the buoyant force of a 150lb object submerged in water?
That completely depends on the object's volume (which you have not mentioned). The buoyant force on it is equal to the weight of an equal volume of water.
What is the buoyant force on a 240 newton object?
The bouyant force depends on the volume of an object. Specifically, the volume of fluid the object displaces.
Does the buoyant force on an object depend on the weight or of the volume of the object?
volume
Does the weight of an object immersed in a buoyant liquid affect the buoyant force on the object?
It is not the weight of the immersed object but the volume of the object would affect the buoyant force on the immersed object because the buoyant force is nothing but the weight of the displaced liquid whose volume is equal to that of the immersed object.
Does the buoyant force on a submerged object depend on the volume of the object ir the weight of the object?
On its volume.
True or false an object buoyant force and weight arent the same thing?
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.
The buoyant force on an object is least when the object is?
The buoyant force is zero when the object is just touching the liquid. As the object displaces more volume, the buoyant force increases until the object is completely submerged. Once the object is submerged, it doesn't matter how deep it is, the buoyant force remains constant.
How much buoyant force acts upon a balloon that weights 1 N?
The buoyant force doesn't depend on the object's weight. It depends on theobject's volume, which the question doesn't reveal.
Why will be the buoyant force more if the volume of the object is more?
More volume means that the object displaces more water. The buoyant force is exactly equal to the weight of the displaced water. Or other liquid.
If an object floats the volume of the displaced water is equal to the volume of the portion of the object that's underwater true or false?
It's true that the volume of displaced water of a floating object equalst the portion of that object that is underwater.
Does the more displaced liquid more buoyant?
Buoyant force = volume x density x acceleration due to gravity So more the volume greater the buoyant force ___________________________________ The volume above must be volume of liquid displaced, not the volume of the object placed in the liquid.
What is the relationship between buoyant force and the objects weight?
In the general case, these are quite unrelated; the buoyant force is related to the object's volume, not its weight. Or the part of the volume that is submerged in the liquid or gas. However, if the object is freely floating, then the buoyant force will be equal to its weight.
