Density is mass / volume. Therefore, when mass decreases, density will also decrease.
Density is mass / volume. Therefore, when mass decreases, density will also decrease.
Density is mass / volume. Therefore, when mass decreases, density will also decrease.
Density is mass / volume. Therefore, when mass decreases, density will also decrease.
If mass stays the same and density decreases, then the volume must increase. This is because density is mass divided by volume, so if density decreases while mass remains constant, the volume must increase to maintain the same mass.
As the mass of a substance increases while its volume stays constant, its density will also increase. Conversely, if the mass of the substance stays constant while its volume increases, the density will decrease. This is because density is directly proportional to mass and inversely proportional to volume.
Water is considered incompressible, so you can't change its volume. Only way to get a lesser volume of water is to use less of it. And if you use less, but in a smaller volume, the density stays the same. Only times water changes density is when you change its state, into steam or ice, or if you add other chemicals to it. But then it's not pure water in a liqued state any more. Density stays constant no matter what the volume is. Density is measured in units of mass per unit of volume. If the volume increases, so does the mass and the density stays the same. example: The density of a liquid is 2grams/liter So if there is one liter, obviously, there are 2 grams of the substance. Now lets change the volume to 5 liters. Now there are 10 grams of the substance. The new density is: 10 grams/ 5 liters which reduces to 2grams/liter. So the density doesn't change regardless of the volume. Note: this assumes that pressure stays constant at both volumes, which may not be true for very large volumes.
When the volume of an object is decreased, but the mass remains the same, the density of the object increases. This is because density is defined as mass divided by volume, so when the volume decreases while the mass stays constant, the mass is concentrated into a smaller space, resulting in a higher density.
If the temperature stays the same and the volume decreases, according to Boyle's Law, the pressure of the gas will increase. This is because there are now fewer particles in a smaller space, leading to more collisions with the walls of the container, resulting in increased pressure.
the density increases
Density increases
decreases
density increases
density decreases
When mass increases and volume stays constant, the density increases. When volume increases and mass stays constant the density decreases. When they both change, then the density will depend on the rate of change of mass and the rate of change of volume.
The mass either decreases or increases
If mass increases while volume stays the same, density increases. If volume increases while mass stays the same, density decreases. Density is calculated as mass divided by volume, so any change in mass or volume will affect the density of a substance.
If mass stays the same and density decreases, then the volume must increase. This is because density is mass divided by volume, so if density decreases while mass remains constant, the volume must increase to maintain the same mass.
If the volume of a gas increases, the density of the gas will decrease. This is because density is mass divided by volume, so as the volume increases while the mass stays constant, the density will decrease.
When density increases, the number of molecules in a volume stays the same. Density is defined as mass per unit volume, so as the mass increases, there needs to be a proportional increase in the number of molecules to maintain the density.
Density is a measure of how much mass is contained in a given volume. It is calculated by dividing the mass of an object by its volume. The relationship between density, mass, and volume can be expressed by the formula: Density Mass/Volume. This means that as the mass of an object increases while the volume stays the same, the density also increases. Conversely, if the volume of an object increases while the mass stays the same, the density decreases.