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Buoyant force is entirely the result of gravity. In a gravitational field, we find denser objects sinking in whatever medium they are in (usually air or water) and less dense objects, if the density is lower than the surrounding medium, floating. In the absence of a gravitational field (or in free fall, which is equivalent) everything floats.
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What is the force that is working against the buoyant force?
The force working against the buoyant force is gravity. Gravity pulls objects downward, while the buoyant force pushes objects upward when they are immersed in a fluid.
What force is opposing the buoyant force?
The force opposing the buoyant force is the force of gravity. Gravity pulls objects downward, creating a force that must be overcome by the buoyant force in order for an object to float in a fluid.
What is the relationship between buoyant force and gravity?
Buoyant force is the force that opposes the weight of an object immersed in a fluid. It is a result of the fluid pressure acting on the object due to gravity. Gravity pulls the denser fluid downward, creating a pressure difference that causes the buoyant force to push the object upward.
When the buoyant force is greater than the force of gravity an object will?
When the buoyant force is greater than the force of gravity, an object will float or rise. This is because the buoyant force pushes upward on the object with a greater force than gravity pulling downward, resulting in a net upward force.
What direction does buoyant force point?
the buoyant force points up and gravity goes down that's why we are balanced.
What is the force that is working against the buoyant force?
The force working against the buoyant force is gravity. Gravity pulls objects downward, while the buoyant force pushes objects upward when they are immersed in a fluid.
What force is opposing the buoyant force?
The force opposing the buoyant force is the force of gravity. Gravity pulls objects downward, creating a force that must be overcome by the buoyant force in order for an object to float in a fluid.
What is the relationship of buoyant force to gravity?
the relationship between buoyant force and gravity is that both definitions have to do with floatation . gravity and buoyant both keep you your object afloat so that it does not submerge
What is the relationship between buoyant force and gravity?
Buoyant force is the force that opposes the weight of an object immersed in a fluid. It is a result of the fluid pressure acting on the object due to gravity. Gravity pulls the denser fluid downward, creating a pressure difference that causes the buoyant force to push the object upward.
When the buoyant force is greater than the force of gravity an object will?
When the buoyant force is greater than the force of gravity, an object will float or rise. This is because the buoyant force pushes upward on the object with a greater force than gravity pulling downward, resulting in a net upward force.
What is 1 force that buoyant works against?
the force of gravity
What will an object do if the force of gravity is is stronger then buoyant force?
Sink
Which diagram or diagrams show a relationship in which gravity and buoyant force are unequalwhich diagram or diagrams show a relationship in which gravity and buoyant force are unequal?
optats
What direction does buoyant force point?
the buoyant force points up and gravity goes down that's why we are balanced.
What are the 2 forces involved in sinking and floating?
Gravity is pulling down, and Buoyancy is pushing up. When the force of gravity is greater than the buoyant force, objects sink. When the buoyant force is greater than the force of gravity, objects float.
F the buoyant force is greater than the force of gravity on an object then the object?
accelerates upward, and may shoot up out of the water.If the buoyant force is equal to the force of gravity, then the object floats right there.
When the buoyant force is equal the force of gravity will do what?
When the buoyant force is equal to the force of gravity, the object will neither sink nor float. It will be in a state of neutral buoyancy, where it remains suspended in the fluid at a constant depth.
