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kPa Converter

Convert kilopascals to psi, bar, atm, mmHg, and pascals with reference tables, formulas, and pressure-context guidance for gauges, weather, HVAC, and lab work.

Published

Pressure conversions
Pounds per square inch
14.50377 psi
Kilopascals entered
100 kPa
Bar
1 bar
Atmospheres
0.986923 atm
Millimeters of mercury
750.0616 mmHg
Pascals
100,000 Pa

100 kPa is 14.50377 psi, 1 bar, and 0.986923 atm.

Enter pressure in kilopascals.
kPa

Results update as you type.

kPa Converter

This kPa converter treats kilopascals as the starting point and translates one pressure reading into psi, bar, standard atmospheres, millimeters of mercury, and pascals. That single-input design matters because kPa often appears as the common language between domains: tire placards in Canada and Australia, HVAC static-pressure notes, pump curves, blood-pressure discussions that mention mmHg, weather charts, school gas-law examples, and pressure switches specified in SI units. Instead of moving through several separate pair converters, you can see the pressure family side by side and decide which unit belongs in your report, label, or calculation.

The calculator accepts nonnegative values only because the form is designed for ordinary pressure magnitudes. If you are analyzing vacuum relative to local atmosphere, confirm whether the source is absolute pressure or gauge pressure before entering it. A vacuum gauge can show a negative gauge reading even though the absolute pressure remains positive. The converter does not add or subtract atmosphere; it simply changes the unit attached to the same numeric pressure reference.

Kilopascal definitions and pressure references

A pascal is the SI derived unit of pressure, equal to one newton per square meter. The prefix kilo means 1,000, so one kilopascal is 1,000 pascals. In practical terms, kPa is large enough for everyday pressure labels but still small enough to show useful decimal detail. Standard atmospheric pressure is 101.325 kPa, one bar is exactly 100 kPa, and 100 kPa is therefore a convenient engineering shorthand that sits just below a standard atmosphere.

Pressure values also need a reference. Absolute pressure starts at a perfect vacuum. Gauge pressure starts at the surrounding atmosphere and reads zero when the measured system is open to local air. If a compressor manual says 700 kPa(g), the psi result is also gauge pressure. If a thermodynamics table says 700 kPa absolute, the psi result is absolute pressure. Mixing those two references is a larger error than most rounding choices.

Formula

The calculator mirrors the conversion method. It multiplies or divides the entered kilopascals with fixed factors:

psi=kPa×0.14503773773020923\text{psi} = \text{kPa} \times 0.14503773773020923

bar=kPa100\text{bar} = \frac{\text{kPa}}{100}

atm=kPa101.325\text{atm} = \frac{\text{kPa}}{101.325}

mmHg=kPa×1000133.322387415\text{mmHg} = \text{kPa} \times \frac{1000}{133.322387415}

Pa=kPa×1,000\text{Pa} = \text{kPa} \times 1{,}000

The headline result is psi, rounded to as many as five decimals. The supporting rows show the original kPa, bar, atm, mmHg, and Pa with rounding appropriate to each unit.

Check a sample conversion

Suppose an HVAC test record lists 250 kPa. The calculator evaluates the same steps:

psi=250×0.14503773773020923=36.25943443255231\text{psi} = 250 \times 0.14503773773020923 = 36.25943443255231

Rounded like the result panel, that appears as 36.25943 psi. The other rows are 2.5 bar, 2.467308 atm, 1875.1542 mmHg, and 250000 Pa. Those values describe one pressure, not five different pressures. If the source was 250 kPa(g), the psi value should be read as 36.25943 psig; if the source was 250 kPa absolute, it should be read as 36.25943 psia.

Reference table

kPapsibaratmmmHgPa
507.251890.50.493462375.030850000
10014.5037710.986923750.0616100000
101.32514.695951.013251760101325
25036.259432.52.4673081875.1542250000
700101.5264276.9084635250.4318700000

Where kPa shows up

In automotive work, kPa is common on tire placards and pressure-monitoring data, while many handheld gauges still show psi. Remember that tire readings are normally gauge pressure; for a tire-specific gauge discussion, compare the gauge-pressure treatment in the bar to PSIG converter. In weather and aviation, kPa connects neatly to atmospheres and mmHg because atmospheric pressure near sea level is close to 101.325 kPa. In HVAC, ducts and filters may use much smaller pressure differences, so rounding and prefixes become important. In engineering specifications, kPa often sits below MPa; use the MPa conversion page when the pressure or stress is in millions of pascals.

For broader unit work, the pressure converter lets you choose from more source and target units. If the pressure is already in psi and you need atmospheres for a gas-law calculation, the psi to atm conversion gives the focused pair.

Precision and common pitfalls

Do not confuse kPa with Pa: dropping the prefix changes the result by a factor of 1,000. Do not assume 100 kPa equals one atmosphere; it equals one bar exactly, while one atmosphere is 101.325 kPa. Do not label a converted gauge pressure as absolute pressure unless you intentionally added atmospheric pressure first. Finally, avoid presenting more significant figures than the source supports. A tire placard marked 220 kPa does not justify a report of 31.908302 psi; a rounded 31.9 psi or 32 psi is usually more honest.

Sources

Frequently asked questions

What does kPa measure?
kPa measures pressure as kilopascals. One kilopascal is 1,000 pascals, and one pascal is one newton of force spread over one square meter. The unit is common for weather, tire labels, HVAC pressure drops, pumps, medical devices, and engineering specifications that need SI-based pressure values.
How do I convert kPa to psi?
Multiply the kilopascal value by 0.14503773773020923. The calculator uses that factor directly, so 100 kPa becomes 14.50377 psi after rounding to five decimals. Use more digits during intermediate work and round only the final answer to match your measurement.
Is 100 kPa the same as one atmosphere?
No. One standard atmosphere is 101.325 kPa, so 100 kPa is slightly less than one atm. The value is convenient because it equals exactly 1 bar, but it represents about 0.986923 standard atmospheres and about 750.0616 conventional millimeters of mercury.

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