Anything greater than ' 1 '.
The specific gravity of a mixture of gas and water would depend on the proportions of gas and water in the mixture. Gas would typically have a much lower specific gravity than water. The specific gravity of the mixture can be calculated by taking into account the specific gravity of each component and their respective proportions in the mixture.
The specific gravity of a mineral that is 10 times heavier than water would be 10. Specific gravity is a unitless measure that compares the density of a mineral to the density of water, which is 1 g/cm3.
The specific gravity of ice would also be 0.917, as it is the same as the specific gravity of water because both ice and water are forms of the same substance, H2O.
After a vigorous workout without consuming significant water, the specific gravity of urine would likely be higher due to dehydration. When the body loses water through sweating during exercise, the urine becomes more concentrated with waste products, resulting in a higher specific gravity. Dehydration can cause the kidneys to conserve water by producing more concentrated urine.
No, the specific gravity of sea water can vary depending on factors like temperature, salinity, and pressure. However, at standard conditions, the average specific gravity of sea water is around 1.025.
The specific gravity of a mixture of gas and water would depend on the proportions of gas and water in the mixture. Gas would typically have a much lower specific gravity than water. The specific gravity of the mixture can be calculated by taking into account the specific gravity of each component and their respective proportions in the mixture.
The specific gravity of a mineral that is 10 times heavier than water would be 10. Specific gravity is a unitless measure that compares the density of a mineral to the density of water, which is 1 g/cm3.
The specific gravity of ice would also be 0.917, as it is the same as the specific gravity of water because both ice and water are forms of the same substance, H2O.
After a vigorous workout without consuming significant water, the specific gravity of urine would likely be higher due to dehydration. When the body loses water through sweating during exercise, the urine becomes more concentrated with waste products, resulting in a higher specific gravity. Dehydration can cause the kidneys to conserve water by producing more concentrated urine.
No, the specific gravity of sea water can vary depending on factors like temperature, salinity, and pressure. However, at standard conditions, the average specific gravity of sea water is around 1.025.
water. Since the specific gravity of water is 1, the mineral would weigh 3.5 times as much as an equal volume of water.
The specific gravity of iron ore fines at 4.5 indicates that it is denser than water, which has a specific gravity of 1. This means that iron ore fines would sink in water. Specific gravity is a measure of density relative to the density of water, so a higher value indicates a denser material.
It's a density measurement relative to (standard) water. Water is given a 1.00. Things that would sink have greater than 1.00 specific gravity (not accouting for shape).
To prepare a solution of specific gravity 1.06, you need to dissolve a substance in water that will give you that specific gravity reading. The most common substance used for this is sugar, where a concentration of around 5.55% sugar in water would give you a specific gravity of 1.06. Alternatively, you can use a hydrometer to measure the specific gravity and adjust the concentration of your solution until you reach the desired value.
Specific gravity is a measure of density relative to the density of water. A specific gravity of 8.91 for copper means that it is 8.91 times denser than water. Therefore, the weight of a given volume of copper would be 8.91 times the weight of the same volume of water.
The term specific gravity means density in comparison to that of water. Density is weight divided by volume. So to get the volume, pour the oil into a graduated cylinder or measuring cup (same principle). To get the weight, use a scale (a chemist would use a triple beam balance). Once you have the density you can divide it by the density of water, and the result is the specific gravity.
The specific gravity of a substance is a ratio of its density to the density of a reference substance, typically water. Since specific gravity is a ratio, it is independent of the gravitational field strength. Therefore, the specific gravity of mercury would remain the same on the moon, where gravity is one-sixth that of Earth.