Volume is the amount of space occupied by an object or substance, typically measured in cubic units. Weight, on the other hand, is the force exerted on an object due to gravity. Volume is a measure of the size of an object, while weight is a measure of the force acting on an object.
Not necessarily. The weight of an object is determined by its mass and the force of gravity acting on it, while the volume is simply the amount of space it takes up. Different materials have different densities, so two objects with the same volume can have different weights if their densities are different.
Density is mass per unit volume, and sometimes in some industries weight per unit volume is used. Weight per unit volume is also sometimes called specific weight. Weight and mass are not the same. Volume per unit mass is called specific volume, and is the reciprocal of density. It is not clear whether volume per unit weight can also be used as a measure of specific volume.
Mass, volume, and weight are related but they represent different concepts. Mass is the amount of matter in an object, volume is the space occupied by an object, and weight is the force of gravity acting on an object's mass. While mass and volume are intrinsic properties of an object, weight can vary depending on the gravitational force acting on it.
The weight of a liquid is determined by its density, which is a measure of how much mass is packed into a given volume. Liquids with different densities will weigh different amounts because they have different amounts of mass in the same volume.
No,because if they have the same volume,that also means they need to have the same densities. > Density = mass / volume. Say they are different materials, such as water and iron. With an equal volume of both, the iron would be 7.85 times the weight. Therefore iron has 7.85 times the density of water.
weight is different in different gavities but mass is not, volume is not involved
weight is different in different gavities but mass is not, volume is not involved
No; volume and mass are different characteristics with different units of measure.. Mass = Volume x Density
mass, volume and weight.
They are three quite different concepts. The relationships between them are as follows:mass = volume x density weight = mass x gravity
Not necessarily. The weight of an object is determined by its mass and the force of gravity acting on it, while the volume is simply the amount of space it takes up. Different materials have different densities, so two objects with the same volume can have different weights if their densities are different.
Density is mass per unit volume, and sometimes in some industries weight per unit volume is used. Weight per unit volume is also sometimes called specific weight. Weight and mass are not the same. Volume per unit mass is called specific volume, and is the reciprocal of density. It is not clear whether volume per unit weight can also be used as a measure of specific volume.
NO, - a'pound' is a WEIGHT. -A gallon is a VOLUME. They are totally different
They are different in non-homogeneous mixtures. Here's an example. If you put a few drops of water in a balloon, the contents are 99.9% (or so) water by weight and 99.9% (or so) air by volume.
Weight doesn't tell you the volume. One pound of air, one pound of water, and one pound of gold all have vastly different volumes.
Mass, volume, and weight are related but they represent different concepts. Mass is the amount of matter in an object, volume is the space occupied by an object, and weight is the force of gravity acting on an object's mass. While mass and volume are intrinsic properties of an object, weight can vary depending on the gravitational force acting on it.
The relation between weight and volume -: When the weight of a substance increases, its volume also increases. Two substances may have the same weight but different volumes. (Example: If you have one stack of cotton and iron each of the same weight, they will have different volumes. Volume of cotton > Volume of iron in this case.) Density = Weight/Volume.