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As buoyant force decreases then the body starts sinking down.
If the object is floating, then the buoyant force is equal to the object's weight.
The buoyant force is equal to the weight of the liquid displaced by the sinking object. This can be determined by finding the product of the liquid's density, the volume displaced, and the gravitational acceleration (which is approximately 9.81 meters per second squared).
If the object is floating, then the buoyant force is equal to the object's weight.
The buoyant force on a floating object is equal to the object's weight out of water.
It will if it occupies space where liquid should be.
As buoyant force decreases then the body starts sinking down.
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As worded, the question doesn't mean much. I think you want to compare thegravitational force on an object with the buoyant force on the same object whenit's in a fluid.As long as the gravitational force is greater than the buoyant force, the objectmust keep accelerating downward ... sinking further and faster, and displacingmore fluid as it goes. If it ever displaces enough fluid for the buoyant force toequal the gravitational force on it (its 'weight'), then it stops sinking, and floatsright there.
If the object is floating, then the buoyant force is equal to the object's weight.
If the object is floating, then the buoyant force is equal to the object's weight.
The buoyant force is equal to the weight of the liquid displaced by the sinking object. This can be determined by finding the product of the liquid's density, the volume displaced, and the gravitational acceleration (which is approximately 9.81 meters per second squared).
If the object is floating, then the buoyant force is equal to the object's weight.
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.
The buoyant force on a floating object is equal to the object's weight out of water.
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.
When an object is floating in equilibrium, the buoyant force equals the weight of the object. (The buoyant force is equal to the weight of the displaced fluid)