None. You cannot convert from Torr to Kelvin. They measure different things. It's like asking how many kilograms are in the color blue. It doesn't make any sense.
Torr is a measure of pressure and Kelvin is a measure of temperature.
See the Related Questions for more information about these units of measure.
1 torr is equal to 1.33322 kPa. Therefore, 1250 torr is equal to 1666.53 kPa.
The unit torr is a measure of pressure, not of atoms. So, there are no atoms in 774 torr.
742 torr is 0.97632atm. This is gotten by multiplying by 0.00131578947, what one torr is in ATM. i.e 742 x 0.00131578947.
1075 torr - 720 torr = 355 torr
pressure -- Torr which is equivalent to mmHg, Pascals or kPa, atmospheres, psi, inches Hg Volume -- usually liters Temperature -- Kelvin or Celsius which must be converted to Kelvin to be used in any gas law equations
1 Torr = 0.00133322 bar 1 Torr = 133.322 Pa 1 Torr = 0.00131578584 ATM 1 Torr = 1 mmHg
613 Torr = 81.726386 kPa
1 Torr is equal to approximately 0.0193367 psi.
To convert psi to Torr, you can use the conversion factor: 1 psi is approximately equal to 51.715 Torr. Therefore, to convert 102.872 psi to Torr, you would multiply by this conversion factor to get approximately 5332.73 Torr.
742 torr is 0.97632atm. This is gotten by multiplying by 0.00131578947, what one torr is in ATM. i.e 742 x 0.00131578947.
A torr is a unit of pressure; a micron is a unit of length. You can't convert that.
One Kelvin is equivalent to one degree Celsius. Thus, there is a difference of 273.15 degrees between Kelvin and Celsius scales due to their different starting points.
To convert kelvin to Celsius, you subtract 273.15 from the temperature in kelvin. So, 1 kelvin is -272.15 degrees Celsius.
760 torr
1075 torr - 720 torr = 355 torr
Equals 101,325 pascals, 101.325 kpascals, 760 mm of Mercury, and/or 1 atmosphere
pressure -- Torr which is equivalent to mmHg, Pascals or kPa, atmospheres, psi, inches Hg Volume -- usually liters Temperature -- Kelvin or Celsius which must be converted to Kelvin to be used in any gas law equations