1000Kg/M3
8.89
9.81kN/m3
yes,at room temperature by decreasing the pressure we can boil the water.
Air at sea level has a specific heat of 1.0035 kJ/(kg*K). Air at room temperature has a specific heat of 1.012 kJ/(kg*K) Water at room temperature has a specific heat of 4.184 kJ/(kg*K) Therefore, since it takes more energy to increase the temperature of one kilogram of water (because it has a higher specific heat), water is a better insulator. This explains (roughly, though it is much more complex when taking in actual mass, size, and radiation) why on a hot day the air temperature will change much more than the temperature of a pool of water.
The equation Q=mcΔ t calculates the amount of energy for a body of mass to raise a unit temperature per unit mass. The specific heat capacity of water is 4.19 J/g°C which means that it takes 4.19 J to raise 1 g of water to 1°. The specific heat capacity also depends on what the surrounding temperature is. 4.19 J/g°C is the specific heat capacity at room temperature. Since temperature is the measurement of the average kinetic energy of the particles, the motion of particles in water affects the specific heat capacity which ultimately affects how much energy is needed to heat up water.
8.89
Mercury is a liquid at room temperature and has a specific gravity which is higher than water and is not nearly as likely to vaporize as water or alcohol.
9.81kN/m3
Density = Mass/Volume =321g/45cc =7.13g/cc or 7.13g/ml Spec Gravity = density of liquid / density of water =7.13/1 7.13
Light oil has a low density and flows freely when found in room temperature. It also has low specific gravity and low viscosity.
Covalent compounds and water.
Room temperature water is the same as room temperature which ranges from 14C-25C (59F-77F)
The specific gravity is approx 0.86. The density of the substance is 0.86 grams per millilitre. You need to divide this number by the density of pure water, in the same units. At 20 deg C (room temperature) the density of pure water is 0.9982 grams per ml. So the specific gravity of the liquid is 0.86/0.9982 = 0.8616, approx.The fact that there are 30 ml of the liquid is totally irrelevant.
yes,at room temperature by decreasing the pressure we can boil the water.
Room temperature air. The water keeps it fresher.
0.77g/cm3 see specific gravity: http://www.jtbaker.com/msds/englishhtml/h1211.htm
Room temperature