1.3 10-6m2/s
4186 Joules per liter per deg C. Not clear if we are raising the temperature BY 135 deg or TO 135 deg. So the answer is 4186 x 100 x rise in temperature. (Joules).
We find that 273 degrees K is just a tiny bit under 0 degrees Celsius (Centigrade).
Water will turn into water vapour at any temperature between 32 deg F and 212 deg F - under normal pressure.
They are inaccurate. True water clocks were based on water flowing into or out of a graduated container and the user could tell the time by looking at the graduation aligned with the water level. There were also pseudo water-clocks in which a pendulum kept time but the power was provided by water.True water clocks, whether of the inflow or outflow variety, required a steady rate of flow. This depends on the viscosity of water which is dependent on the ambient temperature. A change in temperature from 20 to 21 deg C produces a change in viscosity of approx 2%. This would cause a clock to lose half an hour in a day!
0 deg C and 32 deg F.
It boils...100 deg Centigrade equals 212 deg. Fahrenheit
212 deg F = 100 deg C = the boiling point of water at standard air pressure (sea level).220 deg F = 104 deg C
180 deg C = 356 deg F.
283 deg Centigrade = 541.4 deg Fahrenheit
212 deg F = 100 deg C = the boiling point of water at standard air pressure (sea level).220 deg F = 104 deg C
It is 151 deg F.
4186 Joules per liter per deg C. Not clear if we are raising the temperature BY 135 deg or TO 135 deg. So the answer is 4186 x 100 x rise in temperature. (Joules).
57 deg F - 32 / 9 * 5 = The answer is 13.89 deg C
1 deg C = 33.8 deg Fahrenheit.
5000 deg F = 2760 deg C
It is 68 deg F.
-22 deg C = -7.6 deg F