Wiki User
∙ 13y agoA body which is totally submerged in a liquid displaces a volume of water equal to the volume of the body.
Wiki User
∙ 13y agoNo, a body totally submerged in a liquid displaces a volume of water equal to its own volume. This is known as Archimedes' principle, which states that the buoyant force acting on an object is equal to the weight of the fluid displaced by that object.
An object submerged in a fluid displaces a volume of fluid equal to its own volume. This is known as Archimedes' principle.
In order to measure volume, one normally sees how much water it displaces. If the body floats, the water displaced will be equal to the weight of the body, not the volume. It will be necessary to force the body down so that it is totally submerged. If there is an anchor and chain below the surface, the water displaced when the body is attached and submerged will have the same volume as the body.
The buoyant force on an object is least when the object is completely submerged in a fluid. This occurs when the weight of the object is equal to the weight of the fluid it displaces, resulting in a net force of zero.
To find the volume of the liquid, you need to subtract the volume of the ball alone from the volume of the liquid plus submerged ball. The volume of the ball should be subtracted to isolate only the volume of the liquid in the cylinder.
A submerged body is completely below the surface of a liquid, while an immersed body has a portion above and below the liquid surface. Submerged bodies experience buoyant forces acting upward, while immersed bodies experience buoyant forces acting both upward and downward.
A submerged object displaces a volume of water that is equal to its own volume. This is known as Archimedes' principle.
An object submerged in a fluid displaces a volume of fluid equal to its own volume. This is known as Archimedes' principle.
That sounds too difficult. Instead, if the item can handle being submerged in liquid, you could just measure how much liquid it displaces when submerged.
The liquid displacement formula is used to calculate the volume of an irregularly shaped object by measuring the volume of liquid it displaces when submerged in a container of liquid. The formula states that the volume of the object is equal to the difference in volume between the liquid level before and after submerging the object.
volume of water, causing an equal volume of water to be pushed aside or displaced. This displacement of water creates a buoyant force that acts in the opposite direction to the force of gravity, helping to support the object in the water.
The conclusion of the Archimedes principle is simply that the upward buoyant force that is experienced by a body immersed in a fluid, is equivalent to the weight of the fluid that the body displaces. This allows the volume of an object to be measured by measuring the volume of liquid it displaces after submerging. For any immersed object, the volume of the submerged portions equals the volume of fluid it displaces.
The upthrust, or buoyant force, acting on an object submerged in a liquid is equal to the weight of the liquid displaced by the object. The volume of the body submerged in the liquid affects the upthrust because the greater the volume of the body submerged, the more liquid is displaced, resulting in a larger upthrust force.
The volume of a completely submerged object is equal to the volume of water it displaces. This is known as Archimedes' principle, where the volume of the object displaces an equal volume of water when submerged.
An object displaces an amount of fluid equal to its own volume. This is known as Archimedes' principle of buoyancy. This means that the object pushes aside or moves an equivalent volume of fluid when it is submerged in a liquid.
In order to measure volume, one normally sees how much water it displaces. If the body floats, the water displaced will be equal to the weight of the body, not the volume. It will be necessary to force the body down so that it is totally submerged. If there is an anchor and chain below the surface, the water displaced when the body is attached and submerged will have the same volume as the body.
The volume of an irregularly shaped geometric object is typically determined by the amount of water it displaces when submerged. This method utilizes the principle of fluid displacement to calculate the volume of the object. By measuring the amount of water the object displaces, one can determine its volume.
Overflow can measure the volume of water displaced by an object when it is submerged. By measuring the overflow, one can determine the volume of the object, as it is equal to the volume of water it displaces.