To calculate the water difference when the density changes, you would need to account for the change in volume due to the density change. Use the formula: Difference in water volume = Original water volume / Original water density - Original water volume / New water density. Multiply this difference in volume by the new water density to obtain the actual water difference.
A phase change occur, energy is absorbed, water volume decrease.
Absolutely. Try an experiment of boiling a pan of water on a stove in the kitchen. If you have 1 liter of water in the pan and boil it dry until the water has all gone, the volume of steam produced will fill the house.
Density = mass / volume. So if the volume changes, the density will obviously also change.
No, the solubility product constant (Ksp) is not affected by a change in the volume of water. Solubility, which is the maximum amount of solute that can dissolve in a solvent at a given temperature, also typically will not be affected by a change in volume as long as the temperature remains constant. The concentration of dissolved ions may change due to dilution effects with a change in volume, but the solubility itself will not change.
Yes there is a change in volume.
this is because water is having its own volume.
The most common reason is that the solids are absorbing water in sufficient volume to cause a notable change in volume, without dissolving or losing their appearance as solids.
Density = mass / volume. So if the volume changes, the density will obviously also change.
In general, yes, but lots of things may cause its volume to change. The volume will change if temperature or pressure change, or if something dissolves in the water. Volume may also decrease by evaporation.
To calculate the water difference when the density changes, you would need to account for the change in volume due to the density change. Use the formula: Difference in water volume = Original water volume / Original water density - Original water volume / New water density. Multiply this difference in volume by the new water density to obtain the actual water difference.
The volume increase, mass does not change.
Yes.
mass and volume
I think it is the volume displacement. When you put an object into a container with a known volume of water, the water will rise, and that change of volume is the volume of the object you introduced into the container.
One common technique is the water displacement method. You submerge the irregular object in a known volume of water in a container, measure the volume of water displaced, and that volume is equal to the volume of the object.
If a substance undergoes a chemical change, its properties change. For example, water, when heated turns into a gas which has a higher volume.