74.009 pounds per cubic foot is the density of nitrobenzene at 100 degree Fahrenheit.
No, Gold is a solid at 21 degrees Celsius, or 70 degrees Fahrenheit. Gold becomes a liquid at 1337.33 degrees K, or 1064.18 degrees Celsius or 1947.52 degrees Fahrenheit.
Calcium is a solid at room temperature, with a density of 1.55g/cm-3. Its melting point (the temperature at which it turns into a liquid) is 342 degrees Celsius, or 1548 degrees Fahrenheit. Its liquid density is 1.378g/cm-3.
By cooling it below 4 degrees centigrade whereupon its density will decrease. By heating it above 4 degrees centigrade whereupon its density will decrease. Water is at its densest at about 4 degrees centigrade.
Density of a liquid is indirectly proportional to the temperature. When the temperature raises, the density of the liquid decreases. Therefor the temperature has an effect on water density.
air temperature: the temperature of the air... air density: how much air there is, for example on top of a mountain there is low air density because there is not much air but at sea level there is higher air density because there is lots of air. this happens becuse air actually has a mass and it sinks down to sea level where it cannot go lower. The density of all materials is dependent on ambient temperature. For gases the influence of temperature is stronger. Raising the temperature of a gas (air) the density is lower and inversely.
No, Gold is a solid at 21 degrees Celsius, or 70 degrees Fahrenheit. Gold becomes a liquid at 1337.33 degrees K, or 1064.18 degrees Celsius or 1947.52 degrees Fahrenheit.
Calcium is a solid at room temperature, with a density of 1.55g/cm-3. Its melting point (the temperature at which it turns into a liquid) is 342 degrees Celsius, or 1548 degrees Fahrenheit. Its liquid density is 1.378g/cm-3.
Plotted against internal thermal energy density, the Celsius and Fahrenheit scalesof temperature are straight lines with different slopes and different intercepts.The lines intersect (Celsius and Fahrenheit temperatures are equal) at -40 .(And don't ask me which one.)
Temperature does not have density.
0.9918327 g/mL @41C
0.9990039 g/mL @20.5F
It would be nearly impossible because the atmosphere density is 90 times heavier than ours, and the surface temperature is approx. 690 degrees Fahrenheit.
According to http://hypertextbook.com/facts/2000/IngaDorfman.shtml, the average density of cooking oils at approximately room temperature varies from 0.91 g/cm^s to 0.93 g/cm^3, depending on the precise temperature and the type of oil. For comparison, the density of water is 1.00 g/cm^3 at 4 degrees Celsius (39.2 Fahrenheit), but at room temperature (20 Celsius, or 68 Fahrenheit) the density of water decreases to 0.9982 g/com^3 (from http://www.simetric.co.uk/si_water.htm).
0.9969040 g/mL @78F
At 25 degrees C the density of water is 1.0 g/mL. If the temperature of the water goes above 25 degrees C the density will drop. If the temperature of the water goes below 25 degrees C the density will rise.
4° C is the temperature of maximum density for water. Change temperature in either direction from there -- whether you warm it or cool it -- the density decreases.
The density of ice at 0°C is 0.9167 g/cm³. The density increases slightly at lower temperatures. Therefore, the volume and temperature of the glacier is needed in order to calculate the exact weight.