To convert atm (atmosphere) to kPa (kilopascal), you may use the atm to kPa converter above. Alternatively, to find out the kPa value for the most commonly converted atm (atmospheric pressure) values, you may check the atm to kPa conversion table.
Below, you will find information of how to convert atm to kPa and how to convert kPa to atm, including the formulas and example conversions.
How to convert atm to kilopascal (kPa)?
1 Atm (atmospheric pressure) is equal to 101.325 kilopascal (kPa). To convert atm to kPa, multiply the atm value by 101.325.
atm to kPa formula
kPa = atm * 101.325
How to convert kilopascal (kPa) to atm?
1 Kilopascal (kPa) is equal to 0.00986923266 atmospheric pressure (atm). To convert kPa to atm, multiply the kPa value by 0.00986923266 or divide by 101.325.
kPa to atm formula
atm = kPa * 0.00986923266
atm = kPa / 101.325
What is Atm?
Atm (atmospheric pressure) is the force per unit area by the weight of air above that point. 1 atm = 101.325 kPa.
What is Kilopascal?
Kilopascal is a metric system pressure unit. 1 kPa = 0.00986923266 atm. The abbreviation is "kPa".
Please visit pressure conversion to convert all pressure units.
Create Conversion Table
Click "Create Table". Enter a "Start" value (5, 100 etc). Select an "Increment" value (0.01, 5 etc) and select "Accuracy" to round the result.
Converting between Units of Pressure: atm., mmHg and kPa
Return to KMT & Gas Laws Menu
Here is a repeat from the "Four Variables" file:
There are three different units of pressure used in chemistry. This is an unfortunate situation, but we cannot change it. You must be able to use all three. Here they are:
- atmospheres (symbol = atm)
- millimeters of mercury (symbol = mmHg)
- Pascals (symbol = Pa) or, more commonly, kiloPascals (symbol = kPa)
I. Converting between atmospheres and millimeters of mercury.
One atm. equals 760.0 mm Hg, so there will be a multiplication or division based on the direction of the change.
Example #1: Convert 0.875 atm to mmHg.
Solution: multiply the atm value by 760.0 mmHg / atm.
760.0 mmHg 0.875 atm x –––––––––– 1 atm
Notice that the atm values (one in the numerator and one in the denominator) cancel, leaving mmHg.
Example #2: Convert 745.0 mmHg to atm.
Solution: divide the mmHg value by 760.0 mmHg / atm
745.0 mmHg ––––––––––––––– = 0.980 atm 760.0 mmHg / atm
Notice that the mmHg values cancel and the atm, in the denominator of the denominator, moves to the numerator. Note also that the answer of 0.980 atm has been rounded off to three significant figures.
II. Converting between atmospheres and kilopascals.
One atm equals 101.325 kPa, so there will be a multiplication or division based on the direction of the change.
Example #3: Convert 0.955 atm to kPa.
Solution: multiply the atm value by 101.325 kPa / atm.
101.325 kPa 0.955 atm x –––––––––– = 96.8 atm (to three sig figs) 1 atm
Notice that the atm values( one in the numerator and one in the denominator) cancel, leaving kPa. Sometimes the 1 in front of atm is eliminated. In that case, think of the 1 as being understood to be there.
Example #4: Convert 98.35 kPa to atm.
Solution: divide the kPa value by 101.325 kPa / atm.
98.35 kPa ––––––––––––––– = 0.9706 atm 101.325 kPa / atm
Notice that the kPa values cancel and the atm, in the denominator of the denominator, moves to the numerator. The answer is rounded to four significant figures.
III. Converting between millimeters of mercury and kilopascals.
760.0 mmHg equals 101.325 kPa, so both values will be involved. This situation is slighly unusual because most conversions involve a one, usually in the denominator. The conversion examples above are examples of a one being involved. For example, 760.0 mmHg / 1 atm in examples 1 and 2. The 1 was assumed to be present.
By the way, the 1 (as in 1 atm) has no influence on significant figures.
In this conversion, both 760.0 and 101.325 will be involved and the location of each (numerator or denominator) will depend on the conversion.
Example #5: Convert 740.0 mmHg to kPa.
101.325 kPa 740.0 mmHg x –––––––––––– = 98.66 atm (to four sig figs) 760.0 mmHg
Notice that the mmHg will cancel, since one is in the numerator and one is in the denominator, leaving kPa as the unit on the answer.
Example #6: Convert 99.25 kPa to mmHg.
760.0 mmHg 99.25 kPa x –––––––––––– = 744.4 mmHg (to four sig figs) 101.325 kPa
Notice that the kPa will cancel, since one is in the numerator and one is in the denominator, leaving mmHg as the unit on the answer.
Example #7: Convert 1.69 atm to torr
760.0 torr 1.69 atm x –––––––– = 1280 torr (to three sig figs) 1 atm torr is the same as mmHg. It was intended as a replacement for mmHg, however, mmHg did not fade away. You need to know what torr is. By the way, it is a lowercase t, not a capital, as in Torr.
If your instructor insists in using Torr, just follow his/her practice. Don't tell 'em some guy on the Internet (me!) said they were wrong.
Example #8: Convert 0.3587 atm to Pa
101,325 Pa <--- note the comma, not decimal point 0.3587 atm x ––––––––– = 36340 Pa (to four sig figs) 1 atm kPa (kilopascals) is the more commonly used unit, but Pa is used from time to time. 101.325 kPa = 101,325 Pa.
Example #9: Convert 820.1 torr to kPa
101.325 kPa 820.1 torr x –––––––––– = 109.3 kPa (to four sig figs) 760.0 torr
Example #10: Convert 689 mmHg to Pa
101,325 Pa 689 mmHg x –––––––––– = 91800 Pa (to three sig figs) 760.0 mmHg
Example #11: Convert 725.0 torr to mmHg
760.0 mmHg 725.0 torr x ––––––––––– = 725.0 mmHg 760.0 torr Ha!! A trick question!!
Example #12: A student reads a barometer in the laboratory and finds the prevailing atmospheric pressure to be 720.0 mmHg. Express this pressure in atmospheres, kilopascals, torrs, pounds per square inch, and pascals.
Hint: 1 atm = 101.325 kPa = 760.0 torr = 760 mmHg = 14.696 psi = 101,325 Pa
Solution:
(720.0 mmHg) (1 atm / 760 mmHg) = 0.9474 atm(720.0 mmHg) (101.325 kPa / 760 mmHg) = 95.99 kPa
(720.0 mmHg) (760 torr / 760 mmHg) = 720.0 torr
(720.0 mmHg) (14.696 psi/ 760 mmHg) = 13.92 psi
(720.0 mmHg) (101,325 Pa / 760 mmHg) = 9.599 x 104 Pa
Comment: Pounds per square inch is not used in scientific circles. It's used in British and American society and that's about it. Since teachers like to think of themselves as sneaky, it might show up on your test!
Return to KMT & Gas Laws Menu