Yes ... IF the object is floating.
Otherwise no.
They both blanace each other when exerted on an object. Each side are equal to the force balanced by those matters
When a system is in isostasy, downward gravity and upward buoyancy are balanced.
When a system is in isostasy, downward gravity and upward buoyancy are balanced.
gravity
Buoyancy is the power to float or rise in a liquid and it acts against the force of gravity.
If the forces on an object are balanced, it won't move. This would apply to a captive balloon, held to the ground by a rope. The upward force of the balloon's buoyancy is balanced by a downward force in the rope, and these must be equal. The same argument for you sitting still in your chair, your weight is balanced by an upward force in the chair.
Gravity and buoyancyWhat two forces are balanced when a system is in isostasy?Downward gravity and upward buoyancy
Buoyant force, buoyancy force, buoyancy.
They both blanace each other when exerted on an object. Each side are equal to the force balanced by those matters
They both blanace each other when exerted on an object. Each side are equal to the force balanced by those matters
When a system is in isostasy, downward gravity and upward buoyancy are balanced.
When a system is in isostasy, downward gravity and upward buoyancy are balanced.
balanced force is when things are balanced.
This is a force of nature and not invented.
This is a force of nature and not invented.
gravity
The force that makes things float is called buoyancy.