About 1500 (centipoise)
The density of sulfur in grams/cm3 is 2.070. (not at twenty five degrees Celsius)
The density of mercury at 25 degrees Celsius is approximately 13.6 grams per cubic centimeter.
The density of water at 28 degrees Celsius is approximately 997.77 kg/m^3.
The density of water at 24 degrees Celsius is approximately 997.0 kilograms per cubic meter.
Water at -20 degrees Celsius; heat will expand matter, so at +40 degrees Celsius, water would have less density. * * * * * That would be true if there were no phase change. Unfortunately for the above answer, water freezes at 0 deg C and that phase change is accompanied by an expansion. As a result, water at 40 deg C is denser that water (ice) at -20 deg C.
For the density of glycerol see this link.
It is 1244.3 kg per cubic metre (= 1.2443 grams per ml).
The density of water increases as it cools from 4 degrees Celsius to 0 degrees Celsius. At 4 degrees Celsius, the density of water is 999.972 kg/m³, and at 0 degrees Celsius the density is 999.8395 kg/m³.
What is the density of water at 37 degrees Celsius?
Temperature does not have density.
The density of sulfur in grams/cm3 is 2.070. (not at twenty five degrees Celsius)
The density of hydrogen gas at 25 degrees Celsius is approximately 0.0899 g/cm^3.
The density of helium gas at 25 degrees Celsius is approximately 0.1785 grams per liter.
The density of oxygen at 25 degrees Celsius is approximately 1.1839 grams per liter (g/L).
No, water's density decreases as it cools. Water reaches its maximum density at around 4 degrees Celsius, and as it cools further, the water molecules form a crystalline structure, causing the density to decrease.
As water cools from 4 degrees Celsius to 0 degrees Celsius, its density decreases. This decrease in density is due to the formation of hydrogen bonds between water molecules, causing them to arrange in a more organized structure that takes up more space, decreasing the overall density of the water.
The graph will be a straight graph if you plot r2 against v. If we calculate the gradient of the line this is giving us the value of the constant "k" from the equation: k = v r2 With this calculated value of "k" we can calculate the value of the viscosity of the liquid using: Viscosity = 2(Denisity of sphere - Denisty of Glycerol) g 9k