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Neither gravity nor buoyancy have dimensions (size).
There cannot be buoyancy without gravity because without gravity there will be no pressure.
buoyancy has to deal with density, gravity, air, and water
Gravity is needed for buoyancy as if there was no gravity then there would be no need for buoyancy, the need for buoyancy is to counteract the pull of gravity so you can stay at the surface of a liquid such as water. If there was no gravity then there would be no need to counteract it. I hope this the answer you needed. What if there is a ball of water in space and a cork made dof wood is inserted carefully into the ball. Would it 'rise' from the center of the ball towards the surface or not???
Gravity keeps u down and buoyancy helps you rise up
Neither gravity nor buoyancy have dimensions (size).
There cannot be buoyancy without gravity because without gravity there will be no pressure.
buoyancy has to deal with density, gravity, air, and water
Gravity is needed for buoyancy as if there was no gravity then there would be no need for buoyancy, the need for buoyancy is to counteract the pull of gravity so you can stay at the surface of a liquid such as water. If there was no gravity then there would be no need to counteract it. I hope this the answer you needed. What if there is a ball of water in space and a cork made dof wood is inserted carefully into the ball. Would it 'rise' from the center of the ball towards the surface or not???
Gravity keeps u down and buoyancy helps you rise up
When an object is released on earth (so it is free to fall), there are two forces that take hold. Gravity and Buoyancy. Gravity, of course, is what pulls matter to matter, and pulls us, and everything else towards the ground here on earth. Buoyancy is what makes things float. If the Buoyancy forces is stronger then the force of gravity, then the object will float away, at least until the buoyancy force levels out with the gravity force. Examples of buoyancy overpowering gravity is like a helium balloon floating away, or a boat floating on the water (gravity pulls the boat down, but the buoyancy over the water allows it to float).
Gravity and buoyancy.
buoyancy and gravity
gravity
No they cant really control gravity anyway...
centre of buoyancy = 1/2 (y) centre of gravity = 1/2 (H)
Buoyancy is the power to float or rise in a liquid and it acts against the force of gravity.