If you use a homogenous (uniform) material, it doesn't. No matter what shape you put it into, the density should be the same.
If you use a homogenous (uniform) material, it doesn't. No matter what shape you put it into, the density should be the same.
If you use a homogenous (uniform) material, it doesn't. No matter what shape you put it into, the density should be the same.
If you use a homogenous (uniform) material, it doesn't. No matter what shape you put it into, the density should be the same.
If you use a homogenous (uniform) material, it doesn't. No matter what shape you put it into, the density should be the same.
A liquid has a define shape but a gas has no define shape
The density of materials is unchanged.
Shape, size, density, mineral composition, method of formation, degree of erosion, degree of metamorphism, color, smell, location, origin.
You describe the shape, not of the data set, but of its density function.You describe the shape, not of the data set, but of its density function.You describe the shape, not of the data set, but of its density function.You describe the shape, not of the data set, but of its density function.
Changing the shape CAN change the density. If you change it into a smaller shape, then you increase the density. However the mass will not change.
Rocks differ in shape. The shape of rocks depend on the shape of the minerals that compose them. Rocks may be round or angular.
Changing the shape CAN change the density. If you change it into a smaller shape, then you increase the density. However the mass will not change.
The ones which float have a lower density than water, whereas those which sink have a higher density than water. However, also the shape the material is in influences whether it sinks or floats.
No. Density is an intensive property.
They differ in shape ,size and even colour
Density
Body parts differ in shape and size due to evolutionary pressure and physical need.