If a object with little volume floats on water its density is less than water.But should consider to avoid effects of surface tension
Whether or not your body sinks in water depends on your body's density. If your body is less dense than water, you will float; if your body is more dense, you will sink. Most people will float in water due to the density of the human body being slightly less than that of water.
Yes, a liter of water weighs more than a kilogram of body fat. Water has a density of 1 kg/L, while body fat has a density of about 0.9 kg/L.
Density is defined by how compact a particular substance is. In the case of the density of water verses the human body, your body is slightly less dense than water that is why humans can float.
A body whose total density is greater than that of water will sink in water;that is, if it's not supported, it will continuously drift lower.A body whose total density is less than that of water will float in water; that is,it will sink only partially, and will then remain on the surface and sink no lower.A body whose total density is exactly equal to that of water will have "neutral buoyancy",and will "float submerged" so to speak. That is, none of it will remain above the surface,but once submerged, it will neither rise nor sink further, but will maintain the depth at whichit is placed.
A body will sink in water if its density is greater than the density of water. This means that the force of gravity pulling the body down is stronger than the buoyant force pushing it up, causing it to sink.
Whether or not your body sinks in water depends on your body's density. If your body is less dense than water, you will float; if your body is more dense, you will sink. Most people will float in water due to the density of the human body being slightly less than that of water.
The human body is denser than water. The density of the human body is about 985 kg/m^3, while the density of water is 1000 kg/m^3. This is why your body floats in water.
i think it's because liquids have less density than solids, and the body is lighter in liquid.
the density of your body is lower than water....:)
The uman body floats in water because its density is just under that of water.
The fact that most people can float in water suggests that the density of the human body is very close to the density of water. This means that the human body is composed of tissues and fluids that have a similar density to water, allowing it to float rather than sink.
Yes, a liter of water weighs more than a kilogram of body fat. Water has a density of 1 kg/L, while body fat has a density of about 0.9 kg/L.
Many gases produce in body of human. When the man die the water enter the human body and there is no way for air to diffuse out of the human body .As the gasesare lighter so they try to diffuse out of the water due to this the dead body floats on water
Density is defined by how compact a particular substance is. In the case of the density of water verses the human body, your body is slightly less dense than water that is why humans can float.
The body's overall density remains the same in water because the mass of the body and the volume of water it displaces are equal, following Archimedes' principle. When submerged, the body displaces an amount of water equal to its own weight, which keeps the body's density constant.
A body whose total density is greater than that of water will sink in water;that is, if it's not supported, it will continuously drift lower.A body whose total density is less than that of water will float in water; that is,it will sink only partially, and will then remain on the surface and sink no lower.A body whose total density is exactly equal to that of water will have "neutral buoyancy",and will "float submerged" so to speak. That is, none of it will remain above the surface,but once submerged, it will neither rise nor sink further, but will maintain the depth at whichit is placed.
A body will sink in water if its density is greater than the density of water. This means that the force of gravity pulling the body down is stronger than the buoyant force pushing it up, causing it to sink.