Density = mass / volume. So if the volume changes, the density will obviously also change.
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.
Measure out a specific volume of water, such as 100mL. Determine the mass of that volume of water. Density = mass/volume, so divide the mass by the volume, and you will have the density.
The density is the ratio between mass and volume.
The density of water remains constant regardless of the volume or shape of the container it is in. This is because the mass of water and its volume stay the same, resulting in the same density for both a pool and a cup of water.
To find the volume of the alloy, use the formula for density: Density = Mass / Volume. First, calculate the volume of water displaced by the alloy when immersed: Volume of water displaced = Mass in air - Mass in water. Then, use the density of water (1g/cm^3) to find the volume, as the volume of water displaced equals the volume of the alloy. Finally, calculate the density of the alloy by dividing its mass by the volume obtained.
Temperature, pressure, and the presence of dissolved substances like salt can all influence the density of water. As temperature increases, water density decreases, while increasing pressure can increase density. Dissolved substances can affect density by changing the mass of the water without significantly changing its volume.
Density = mass / volume. So if the volume changes, the density will obviously also change.
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.
density = mass/volume Determine the mass and volume of the water, and then divide the mass by the volume, and that will give you the density.
Salinity can impact the density of a substance or solution by increasing it. When salt is added to water, it increases the mass of the solution without significantly changing its volume. This results in a higher density because the same volume of water now contains more mass.
The density of water is 1. Density is calculated by dividing mass by volume. For things that have density more than 1, they will sink in water. For things with density less than 1, they will float in water.
Measure out a specific volume of water, such as 100mL. Determine the mass of that volume of water. Density = mass/volume, so divide the mass by the volume, and you will have the density.
Density
yes. the density of a element will not change only the mass and volume will.
If the object's original density is less than water (sponge, for example) - the density will increase. If the object's original density is greater than that of water (though I cannot think of anything that fits that category that is porous enough to absorb water), the density will decrease.
Sea water has a higher density than fresh water due to the dissolved salts and minerals present in it. These dissolved substances increase the mass of the water without significantly changing its volume, resulting in a higher density compared to fresh water.
If you mean why does the density of an object not change when it undergoes a physical change such as a change of shape then the answer is because density is a chemical trait found by dividing the mass by the volume and if you modify the volume then the mass will also be modified for example water has a density of 1 g/cm^3 meaning if you have 3 grams of water it takes up 3 cm^3 even if you change the mass when you change the mass you are also changing the volume same goes if you change the volume you change the mass. In other words mass and volume are relative to each other and when you divide mass by volume you get a number the density the density represents a ratio for water the density is 1 g/cm^3 the ratio of mass to volume is 1:1,1/1, or 1 to 1 meaning for every cm^3 you have of water you will have an equivalent amount of grams. 1 to 1 1 part mass 1 part volume but that is just for water every substance has a density and they rarely if ever are equal.