centimeters of water (cmH2O) to pounds per square inch (psi) conversion

1 cmH2O = 0.01422334 psipsicmH2O
Formula
1 cmH2O = 0.01422334 psi

Understanding Centimeters of Water to Pounds per Square Inch Conversion

The centimeter of water (cmH2O) is a metric gauge unit equal to the pressure of a 1 cm water column at 4°C, common in medical and low-pressure work. The pound per square inch (psi) is an imperial unit measuring force per unit area, dominant in US plumbing, tire, and industrial pressure specs. Converting cmH2O to psi lets metric water-column readings be expressed in the imperial units used on many gauges and datasheets.

Conversion Formula

1 cmH2O=0.01422334 psi1\ \text{cmH2O} = 0.01422334\ \text{psi}

To convert centimeters of water to pounds per square inch, multiply by this factor:

psi=cmH2O×0.01422334\text{psi} = \text{cmH2O} \times 0.01422334

Step-by-Step Example

Convert 25 centimeters of water to pounds per square inch.

psi=25×0.01422334=0.355584 psi\text{psi} = 25 \times 0.01422334 = 0.355584\ \text{psi}

How to Convert Centimeters of Water to Pounds per Square Inch

Bridge metric water-column pressure to the imperial psi scale with one factor.

  1. Read the cmH2O value: For example, 25 cmH2O.
  2. Multiply by 0.01422334: This is the psi equivalent of one centimeter of water.
  3. Compute: 25×0.01422334=0.35558425 \times 0.01422334 = 0.355584.
  4. Report: 25 cmH2O equals 0.355584 psi.

centimeters of water to pounds per square inch conversion table

centimeters of water (cmH2O)pounds per square inch (psi)
00
10.01422334
20.02844669
30.04267003
40.05689337
50.07111672
60.08534006
70.0995634
80.1137867
90.1280101
100.1422334
150.2133501
200.2844669
250.3555836
300.4267003
400.5689337
500.7111672
600.8534006
700.995634
801.137867
901.280101
1001.422334
1502.133501
2002.844669
2503.555836
3004.267003
4005.689337
5007.111672
6008.534006
7009.95634
80011.37867
90012.80101
100014.22334
200028.44669
300042.67003
400056.89337
500071.11672
10000142.2334
25000355.5836
50000711.1672
1000001422.334
2500003555.836
5000007111.672
100000014223.34

What is the centimeter of water?

The centimeter of water (cmH2O) is a unit of pressure equal to the pressure exerted by a one-centimeter-high column of water under standard conditions. It is used heavily in medicine and respiratory therapy, where small pressures are common.

Definition

The conventional centimeter of water is defined as the pressure of a 1 cm column of water with a density of 1000 kg/m³ under standard gravity (9.80665 m/s²):

1 cmH2O=98.0665 Pa1\ \text{cmH2O} = 98.0665\ \text{Pa}

This is the conventional value. Because water density varies with temperature, more precise variants exist (for example, cmH2O at 4 °C uses water's maximum density of about 999.972 kg/m³, giving roughly 98.064 Pa).

Origin and History

The unit comes directly from the water manometer, an instrument in which pressure is read as the height difference of a water column. Water was chosen for low pressures because it produces a taller, more readable column than mercury (water is about 13.6 times less dense). The convention fixes water density and gravity so the unit has a single agreed value independent of local conditions.

Law and Notable Facts

The centimeter of water is not an SI unit but is permitted in medical contexts, where it remains standard for measuring airway, ventilator, and cerebrospinal-fluid pressures. Roughly 1 cmH2O equals 0.7356 mmHg, so about 1.36 cmH2O make up 1 mmHg.

Real-World Examples and Conversions

  • Mechanical ventilators typically deliver positive end-expiratory pressure (PEEP) of 5 to 10 cmH2O.
  • Normal cerebrospinal-fluid opening pressure in a lumbar puncture is roughly 10 to 18 cmH2O.
  • 1 cmH2O ≈ 98.0665 Pa ≈ 0.098 kPa.
  • A standard atmosphere equals about 1033.2 cmH2O.

What is pounds per square inch?

Pounds per square inch (psi) is a unit of pressure that's commonly used, especially in the United States. Understanding what it represents and how it's derived helps to grasp its significance in various applications.

Definition of Pounds per Square Inch (psi)

Pounds per square inch (psi) is a unit of pressure defined as the amount of force in pounds (lbs) exerted on an area of one square inch (in2in^2).

Pressure(psi)=Force(lbs)Area(in2)Pressure (psi) = \frac{Force (lbs)}{Area (in^2)}

How psi is Formed

Psi is derived by dividing the force applied, measured in pounds, by the area over which that force is distributed, measured in square inches. It's a direct measure of force intensity. For example, 10 psi means that a force of 10 pounds is acting on every square inch of the surface.

Applications and Examples of psi

  • Tire Pressure: Car tires are typically inflated to 30-35 psi. This ensures optimal contact with the road, fuel efficiency, and tire wear.

  • Compressed Air Systems: Air compressors used in workshops and industries often operate at pressures of 90-120 psi to power tools and equipment.

  • Hydraulic Systems: Hydraulic systems in heavy machinery (like excavators and cranes) can operate at thousands of psi to generate the immense force needed for lifting and moving heavy loads. Pressures can range from 3,000 to 5,000 psi or even higher.

  • Water Pressure: Standard household water pressure is usually around 40-60 psi.

  • Scuba Diving Tanks: Scuba tanks are filled with compressed air to pressures of around 3,000 psi to allow divers to breathe underwater for extended periods.

Pascal's Law and Pressure Distribution

Pascal's Law is relevant to understanding pressure in fluids (liquids and gases). Blaise Pascal was a French mathematician, physicist, and philosopher. Pascal's Law states that pressure applied to a confined fluid is transmitted equally in all directions throughout the fluid. This principle is fundamental to hydraulics and pneumatic systems where pressure is used to transmit force. Pascal's Law can be summarized as:

A change in pressure at any point in a confined fluid is transmitted undiminished to all points in the fluid.

More formally:

ΔP=ρgΔh\Delta P = \rho g \Delta h

Where:

  • ΔP\Delta P is the hydrostatic pressure difference (in Pascals or psi)
  • ρ\rho is the fluid density (in kg/m3kg/m^3 or lbs/in3lbs/in^3)
  • gg is the acceleration due to gravity (approximately 9.81m/s29.81 m/s^2 or 32.2ft/s232.2 ft/s^2)
  • Δh\Delta h is the height difference (in meters or inches)

For more information, you can refer to this excellent explanation of Pascal's Law at NASA

Frequently Asked Questions

Why is 1 cmH2O such a small number of psi?

A single centimeter of water is a very low pressure compared with a pound per square inch, so it equals only 0.01422334 psi.

How many psi are 25 cmH2O?

Multiplying 25 by 0.01422334 gives 0.355584 psi.

When would I need cmH2O in psi?

US-market gauges and equipment often read in psi, so converting metric water-column figures helps match specifications for low-pressure pumps, filters, and pneumatic systems.

How do I reverse the conversion?

Multiply the psi value by 70.30696 to get cmH2O; for example, 0.355584 psi returns to 25 cmH2O.

Is cmH2O ever more convenient than psi?

Yes, for very low pressures like breathing circuits or slight vacuums, cmH2O gives larger, easier-to-read numbers than the small psi fractions involved.

Complete centimeters of water conversion table

cmH2O
UnitResult
pascals (Pa)98.0665 Pa
kilopascals (kPa)0.0980665 kPa
megapascals (MPa)0.0000980665 MPa
hectopascals (hPa)0.980665 hPa
millibar (mbar)0.980665 mbar
bar (bar)0.000980665 bar
torr (torr)0.7355592 torr
meters of water @ 4°C (mH2O)0.01 mH2O
millimeters of mercury (mmHg)0.7355591 mmHg
standard atmospheres (atm)0.0009678411 atm
technical atmospheres (at)0.001 at
centimeters of mercury (cmHg)0.07355591 cmHg
pounds per square inch (psi)0.01422334 psi
kilopound per square inch (ksi)0.00001422334 ksi
Inches of mercury (inHg)0.02895902 inHg