One atmosphere is roughly 100,000, or 105, Pascal. That is, just divide by 100,000 or by 105.
One atmosphere is roughly 100,000, or 105, Pascal. That is, just divide by 100,000 or by 105.
One atmosphere is roughly 100,000, or 105, Pascal. That is, just divide by 100,000 or by 105.
One atmosphere is roughly 100,000, or 105, Pascal. That is, just divide by 100,000 or by 105.
One atmosphere is roughly 100,000, or 105, Pascal. That is, just divide by 100,000 or by 105.
P = 5 A = 6 B = 11 Or.... P = 1 A = 30 B = 55
pa/b = (pa)1/b = bth root of (pa)
To convert kPa to Pa, just multiply by 1000 - since the prefix "kilo" ("k") means "times 1000".
alpha = 'Alepa [ah-lay-pa]
75 x 7 x 2 = 1050
0.975 ATM = 98 791.88 Pa = 98.791 88 kPa
Convert all the pressures into one unit and then, using Dalton's Law of Partial Pressure, you just add all the pressures together. Using these conversions(101325Pa equals 1 ATM, 1 ATM equals 760 mmHg, 1 mmHg equals 1 torr), calculate each pressure into one unit(I used mmHg) 1013000 Pa nitrogen equals 7598 mmHg of nitrogen(make sure you round using sig figs) 700 mmHg of argon equals 700 mmHg of argon 1.20 ATM of helium equals 912 mmHg of helium 790 torr oxygen equals 790 mmHg of oxygen 0.50 ATM of carbon dioxide equals 380 mmHg of Carbon Dioxide Now add all the pressures and you get: 7598+700+912+790+380= 10380 mmHg If you need to have the answer in a particular unit: 10380 mmHg = 10380 torr = 13.66 ATM = 1384000 Pa = 1,384 kPa
The average value, at sea level, is 101,325 pascals.
"pa" is the abbreviation for pascal. It is a unit of pressure, with 101,325.024 pa = 101.33 Kpa (kilo pascals) = 1 atm.
The atmospheric pressure (1 atm) is 101,325 Pa. In practice, it is usually approximated to 1 bar (100,000 Pa).In terms on barometric readings, it is 760 mmHg.
Using dimensional analysis (unit analysis):5 pa * [(1 atm) / (101325 pa)] * [(760 mm Hg) / (1 atm)] * [ (1 inch) / (25.4 mm)] = 0.00148 inches Hg
There are several units for used to indicate pressure. The SI unit is the Pascal (Pa). The English unit is psi which equals 6,891 Pa. A Bar is equal to 100 kPa. A Tor is equal to 1 kPa. An atmosphere (atm) is equal to 101.3 kPa.
At the standard atmospheric pressure of 101325 Pa water boils exact at 100 degrees Celsius.
1 pa = ? CFM
It's a measure of pressure. Specifically, it's the amount of pressure exerted by the air in the atmosphere at sea level.
10 m is equivalent to about 1 ATM (1 atmosphere) SO 25 m is equal to 2.5 ATM's absolute pressure would include the 2.5 ATM's plus 1 ATM (standard for sea level) so the answer would be 3.5 ATM's or about 35000 Pa (pascals)
Bone has a Young's modulus of about 18 x 109 Pa. Under compression, it can withstand a stress of about 160 x 106 Pa before breaking. Assume that the femur is 0.5 m long and calculate the amount of compression this bone can withstand without breaking. aB = Y EB = Y (deltaL / Lo) deltaL = (aB / Y) Lo here aB = 160 × 106 Pa; Y = 18 × 109 Pa deltaL = (160 × 106 Pa / 18 × 109 Pa) 0.5 m = 4.3 × 10-3 m = 4.3 mm