The volume fraction of a substance is equal to the mole fraction for ideal gas mixture
A homogeneous mixture.
The volume of a cone is exactly equal to one third the volume of a cylinder of equal height and radius. The volume of a cylinder is equal to πr2h, so the volume of a cone is πr2h/3
Volume of a prism is equal to the cross-sectional area multiplied by the height.
NO. If you mix them in equal parts, that would give you 35 volume. To get 15 volume, mix equal parts of 10 and 20 volume.
The resulting volume of a sugar mixture is generally equal to the sum of the volumes of the individual components. When sugar is mixed with another substance, the total volume will be close to the sum of the volumes of the two separate components.
The volume of the resulting sugar mixture will be equal to the sum of the volumes of the unmixed sugar and water. This is because when you mix sugar and water, they do not create or destroy volume - they only mix together to occupy the combined space.
You can mix equal parts of 20 volume developer and 0 volume developer to make a 10 volume developer solution. The resulting mixture will have an average volume of 10 developer.
The volume fraction of a substance is equal to the mole fraction for ideal gas mixture
The volume of a sugar and water mixture is less than the volume of each substance alone because when water is added to sugar, water fills in the little spaces between the particles of sugar, resulting in a lower volume.
No, mole percent and volume percent are not necessarily equal for a gas. Mole percent is the ratio of the moles of a gas to the total moles of all gases in a mixture, while volume percent is the ratio of the volume of a gas to the total volume of all gases in a mixture. The two can be equal only if the gases have the same molar volume at the given conditions.
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Mixing a 30 volume creme developer with a 40 volume creme developer is not recommended as it can alter the desired outcome of your hair color process. The resulting mixture may have an unpredictable volume, potentially causing damage to your hair and scalp. It's best to stick to the developer recommended for your hair coloring product for best results.
The resulting solution could be a homogeneous mixture, a heterogeneous mixture, a compound, or a suspension, depending on the substances being mixed and their interactions.
Mixing 20 and 30 volume creme developer will create an unknown volume of developer that falls between 20 and 30. This mixture may alter the expected results when used with hair color products, potentially resulting in unpredictable color outcomes or hair damage. It is generally recommended to use the developer volume specified by the hair color product for the best results.
To determine the density of the mixture, you need to calculate the total mass of the gases and divide it by the total volume of the tank. Density = total mass / total volume. To determine the specific volume of the mixture, you need to divide the total volume of the tank by the total mass of the gases. Specific volume = total volume / total mass. Once you have these calculations, you'll have the density and specific volume of the gas mixture in the tank.
The volume increase will be equal to the volume of the gold submerged in the water. The volume of the gold can be calculated by dividing its mass by its density (19.32 g/cm³ for gold). Submerging the gold in water will displace an equal volume of water, resulting in the measured volume increase.