One liter of air at 101.325 equals on liter of air at 101.325. It is a trick question of sorts, because the metric unit of measurement "liter" is defined by said amount of matter in an atmosphere of 101.325 KPa.
1 ATM = 101325 Pascals 1 Pascal = 1/101325 ATM
0.975 ATM = 98 791.88 Pa = 98.791 88 kPa
1 psi = 6.89476 kPa (rounded) 1 kPa = 0.14504 psi (rounded) 1 mPa = 1,000 kPa
A common unit of pressure is the atmosphere, which is equivalent to 760mmHg and 101.3kPa. Thus, to convert a value from mmHg to kPa, we must divide by 760 mmHg/ATM and multiply by 101.3 kPa/ATM. In this case: 190 mmHg * (1 ATM / 760 mmHg) * (101.3 kPa / 1 ATM) = 25.3 kPa. This method of units conversion is called dimensional analysis, whereby a value is multiplied by several conversion factors, canceling out the original unit in order to achieve the desired unit.
Each liquid has a different boiling point; 101,3 kPa is he standard atmosphere pressure (atm).
1 ATM = 101325 Pascals 1 Pascal = 1/101325 ATM
958 torr = about 127.7 kPa
1 atm is equal to 101.3 kPa. Therefore, 1.30 atm is equal to 132.29 kPa.
kPa is pressure, how much area is the pressure acting on
276 kPa
Depanding on the model of your bicycle.
13.78 kpa is.
Troposphere: 101.3 kPa Stratosphere: 30.0 kPa Mesosphere: 0.3 kPa Thermosphere: 0.001 kPa
Conversion for kPa to mmHG: kPa x 7.501 = mmHg202.6 kPa x 7.501 = about 1,520 mmHg
The surface pressure of the moon is 10E-7 Pa. Or in kPa 10E-10. (0.0000000001) This pressure is so small because the moon has virtually no atmosphere. Therefore very little pressure. (This can be contrasted to the average sea-level pressure of Earth at 101325 Pa or 101.325 kPa)
A pascal is an SI unit of pressure = 1 newton / m2. An atmosphere is equal to the air pressure at sea level, which is 101325 pascals. Many barometers for measuring air pressure may have a scale for kilopascals, so 1 ATM = 101.325 kPa
783,0 mm Hg is equal to 104,3914 kPa.