the buoyant force of the liquid on the solid is more than the buoyant force of the air on the solid.
When an object is immersed in a liquid, the liquid exerts a buoyant force on the object which is equal to the weight of the liquid displaced by the object. This statement is known as Archimedes' Principle. When a solid body is immersed wholly or partially in a liquid, then there is same apparent loss in its weight. This loss in weight is equal to the weight of the liquid displaced by the body. the bouyant force of an object equal to the weight of the fluid that the object displaced .
When a body is fully or partially immersed in a liquid, the force acting on the body is buoyancy, which is directed upwards and is equal to the weight of the liquid displaced by the submerged part of the body.
The center of gravity of the volume of liquid displaced by an immersed body is called the buoyant force or the center of buoyancy. This point is where the resultant buoyant force of the liquid that pushes up on the immersed body acts.
When a body is immersed in a liquid, it experiences an upthrust force equal to the weight of the liquid displaced, known as buoyancy. This force counteracts the weight of the body, making it feel lighter in the liquid. The net force acting on the body is the difference between its weight and the buoyant force.
Archimedes principle is 'When a solid body is immersed wholly or partially in a liquid, then there is same apparent loss in its weight. This loss in weight is equal to the weight of the liquid displaced by the body.' It was given by Archimedes so it was named after him.
When a body is immersed in a liquid, it experiences an upward buoyant force equal to the weight of the displaced liquid. Additionally, it also experiences a downward gravitational force due to its mass. The net force acting on the body is the difference between these two forces.
The resultant upthrust on a body partly immersed in a liquid acts through the center of buoyancy, which is the centroid of the displaced fluid volume. It is essentially the same point where the weight of the liquid displaced by the body acts, providing a net upward force.
our food and water, you eat it as a solid and it comes out as a solid, mostly. when you drink water it goes in as a liquid and comes out as a liquid.
When a body is immersed in a liquid, the forces acting on it include buoyant force (upwards force due to displaced liquid), gravitational force (downwards force due to gravity), and drag force (resistance force due to the movement of the body through the liquid).
Recall Archimedes's principle. If the weight of the displaced liquid is more than the weight of the body put in the liquid then the body has to float. If weight of the body is more than that of the displaced liquid then body gets immersed.
If the density of the solid body is greater than the density of the liquid the bodywill sink. If the density of the liquid is greater than the density of the solid thebody will float.If the solid and the liquid have the same density, the solid body can be any whereinside the liquid and may move following currents if they exist in the liquid.Read more:How_does_the_density_of_a_body_and_that_of_a_liquid_determine_that_whether_the_body_will_float_or_sink_into_that_liquid
Very interesting question. As we immerse a body of mass M and having volume V is immersed in a liquid then a space of volume V is required for the immersing body. So that space of V is created by the equal volume of liquid vacating that space. Now this liquid should have gone above the initial level of liquid. This is known as expelled or displaced liquid. Its weight though acting down it wants to push up the body out of the liquid region. This push up is known as buoyant force. Hence if B is the buoyant force upward then this would be subtracted from the weight of the immersed body. Hence loss of weight is felt.