Skip to main content

Convert Kilopascals to Torr

No popups. No autoplay ads. Accurate answers with formulas shown.

Science

Pressure Converter
10 sig. figures
Formula1 kPa ร— 7.500637554 = 7.500637554 Torr
โ€”

About Pressure Conversions

Pressure units span diverse fields: pascals dominate engineering, atmospheres and bars are used in diving and industrial applications, millimeters of mercury (mmHg) are standard in medicine for blood pressure, and pounds per square inch (PSI) are ubiquitous in tire pressure and pneumatic systems. Weather reports use hectopascals (millibars) or inches of mercury depending on the region. Converting between these units accurately is safety-critical in applications like dive planning, where pressure miscalculations can be life-threatening.

Quick Conversions

KilopascalsTorr
1 kPa7.50064 Torr
2 kPa15.0013 Torr
5 kPa37.5032 Torr
10 kPa75.0064 Torr
25 kPa187.516 Torr
50 kPa375.032 Torr
100 kPa750.064 Torr
250 kPa1875.16 Torr
500 kPa3750.32 Torr
1000 kPa7500.64 Torr
Unit NameSymbolPer 1 Kilopascal
Atmosphereatm0.00986923
Barbar0.01
Inch of MercuryinHg0.2953
KilopascalkPa1
MegapascalMPa0.001
Millibarmbar10
Millimeter of MercurymmHg7.50064
PascalPa1000
PSIpsi0.145038
TorrTorr7.50064

Frequently Asked Questions

How do I convert Kilopascals to Torr?

To convert Kilopascals to Torr, use the conversion where 1 Kilopascal (kPa) = 7.50064 Torr (Torr). For example, 1 Kilopascal = 7.50064 Torr.

What are common Kilopascal to Torr conversions?

Here are common conversions: 1 Kilopascals = 7.50064 Torr, 5 Kilopascals = 37.5032 Torr, 10 Kilopascals = 75.0064 Torr, 25 Kilopascals = 187.516 Torr, 50 Kilopascals = 375.032 Torr, 100 Kilopascals = 750.064 Torr.

When would I need to convert Kilopascals to Torr?

Pressure conversions run through weather forecasting (millibars to inches of mercury), tire maintenance (PSI to bar), diving calculations (atmospheres), industrial engineering (pascals), and medical work (mmHg for blood pressure).

How precise are the conversions?

All conversions use exact factors verified against NIST and ISO standards with up to 10 significant figures of precision. Results are calculated using IEEE 754 double-precision arithmetic, which provides approximately 15-17 significant digits. For temperature and other non-linear conversions, exact formulas are used rather than approximations.

Sources

Read our full methodology โ†’