Yes, if all of the objects have the same amount of volume they will displace the same amount of water!
No, the amount of water displaced by an object is determined by its volume, not its density. Objects with different densities but the same volume will displace the same amount of water.
The principle that objects can displace water was discovered by the ancient Greek mathematician and physicist Archimedes. This principle is known as Archimedes' Principle and it states that an object submerged in a fluid will displace an amount of fluid equal to its own volume.
Heavy objects generally sink when placed in water because the density of the object is greater than that of water, causing it to displace less water and sink. For an object to float, it must displace an amount of water equal to its own weight.
This phenomenon is called displacement. When an object is placed in water, it displaces the water volume equal to its own volume, causing the water to be pushed out of the way to accommodate the object. This principle is used to determine the volume of irregularly shaped objects by measuring the amount of water they displace.
It depends on the volume of the box. The bigger the volume, the larger amount of water that will be displaced.
No, the amount of water displaced by an object is determined by its volume, not its density. Objects with different densities but the same volume will displace the same amount of water.
Fill a cup to the brim with water. Put egg in water (it should sink), capturing all of the overflow of water. Measure volume of water. This volume will match the egg's volume. Sinking objects displace volume, floating objects displace mass.
equal to their weight
Water displacement can accurately find the volume of substances as it represents the same amount of space or volume. An object placed into the water will displace the same amount of water volume as its own volume.
The principle that objects can displace water was discovered by the ancient Greek mathematician and physicist Archimedes. This principle is known as Archimedes' Principle and it states that an object submerged in a fluid will displace an amount of fluid equal to its own volume.
Objects which are less dense than water will float. Objects denser than water will float or sink depending on the volume of water that they displace and that will depend on their shape.
Heavy objects generally sink when placed in water because the density of the object is greater than that of water, causing it to displace less water and sink. For an object to float, it must displace an amount of water equal to its own weight.
The amount of water displaced is equal to the volume of the object submerged in the water. It can be calculated using the formula: volume of water displaced = weight of the object / density of water.
This phenomenon is called displacement. When an object is placed in water, it displaces the water volume equal to its own volume, causing the water to be pushed out of the way to accommodate the object. This principle is used to determine the volume of irregularly shaped objects by measuring the amount of water they displace.
It depends on the volume of the box. The bigger the volume, the larger amount of water that will be displaced.
Displacement of water refers to the volume of water an object displaces when immersed in water. Objects that displace an amount of water equal to their weight will float, as the buoyant force of the water supporting the object is equal to the gravitational force pulling it down. This is why objects with less density than water will float, while those with greater density will sink.
Yes, an object's shape can affect its ability to float. Objects with larger surface areas relative to their volume, like flat objects or objects with concave shapes, are more likely to float because they displace more water. Objects with irregular shapes or holes are less likely to float because they displace less water due to their shape.