Personally, I would go from mmHg to Atm which the conversion factor is 760mmHg/1Atm. From there, go to kPa which is 101.325KPa/1Atm. Your answer should come out to be 60.43KPa.
Conversion for kPa to mmHG: kPa x 7.501 = mmHg202.6 kPa x 7.501 = about 1,520 mmHg
1.09 kPa = 8.176 mmHg
1 Kpa = 1/1000 Mpa
1 kiloPascal is equal to 7.5006 mmHg. So, using that conversion rate, it can be found that 769.3 mmHg is equal to 102.6 kPa.
The vapor pressure of PCl3 at 298K is approximately 52.8 mmHg.
Conversion for kPa to mmHG: kPa x 7.501 = mmHg202.6 kPa x 7.501 = about 1,520 mmHg
1.09 kPa = 8.176 mmHg
1 Kpa = 1/1000 Mpa
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.
1 kiloPascal is equal to 7.5006 mmHg. So, using that conversion rate, it can be found that 769.3 mmHg is equal to 102.6 kPa.
101.3 kPa=100 Pascals 101.3 kPa=1.00atm=760 mmHg=25.4 in Hg=14.7psi=100 Pa
The partial pressure of oxygen in expired air is 109 mmHg. Partial pressure is calculated at the proportion of oxygen in the air, so at 1 atmosphere for dry air pressure is 713 mmHg (which is 760 total pressure - 47 mmHg water vapor) and oxygen is 21% of the dry gas concentration so inspired pO2 is 150 mmHg.
The pressure of 400 mmHg can be expressed as 53.33 KPa.
In order to convert mmHg to kiloPascals, you need to know the conversion factor. Other helpful conversion factor are also listed. Now all you need to know how to do is complete a dimensional analysis problem. 760 mmHg = 101.325 kPa 1 ATM = 101.325 kPa 1 torr = 1 mmHg
It depends on a specific place or city, as Mexico has a wide array of altitudes, from sea level (101 kPa / 760 mmHg) up to 5,610 meters (18,393 ft) above sea level (52 kPa / 388 mmHg).
.1333 kpa in 1 mmHg
The vapor pressure of PCl3 at 298K is approximately 52.8 mmHg.