centimeters of water (cmH2O) to torr (torr) conversion

1 cmH2O = 0.7355592 torrtorrcmH2O
Formula
1 cmH2O = 0.7355592 torr

Understanding Centimeters of Water to Torr Conversion

The centimeter of water (cmH2O) expresses pressure as a 1 cm water column at 4°C and is common in medicine and low-pressure engineering. The torr is defined as 1/760 of a standard atmosphere, almost identical to a millimeter of mercury, and is the working unit of vacuum technology. Converting cmH2O to torr links water-column gauges to the mercury-based scale used in vacuum systems and laboratories.

Conversion Formula

1 cmH2O=0.7355592 torr1\ \text{cmH2O} = 0.7355592\ \text{torr}

To convert centimeters of water to torr, multiply by this factor:

torr=cmH2O×0.7355592\text{torr} = \text{cmH2O} \times 0.7355592

Step-by-Step Example

Convert 25 centimeters of water to torr.

torr=25×0.7355592=18.3890 torr\text{torr} = 25 \times 0.7355592 = 18.3890\ \text{torr}

How to Convert Centimeters of Water to Torr

Relate a water-column pressure to the mercury-based torr with a single factor.

  1. Take the cmH2O reading: For example, 25 cmH2O.
  2. Multiply by 0.7355592: This factor converts centimeters of water into torr.
  3. Evaluate: 25×0.7355592=18.389025 \times 0.7355592 = 18.3890.
  4. State the answer: 25 cmH2O equals 18.3890 torr.

centimeters of water to torr conversion table

centimeters of water (cmH2O)torr (torr)
00
10.7355592
21.471118
32.206678
42.942237
53.677796
64.413355
75.148915
85.884474
96.620033
107.355592
1511.03339
2014.71118
2518.38898
3022.06678
4029.42237
5036.77796
6044.13355
7051.48915
8058.84474
9066.20033
10073.55592
150110.3339
200147.1118
250183.8898
300220.6678
400294.2237
500367.7796
600441.3355
700514.8915
800588.4474
900662.0033
1000735.5592
20001471.118
30002206.678
40002942.237
50003677.796
100007355.592
2500018388.98
5000036777.96
10000073555.92
250000183889.8
500000367779.6
1000000735559.2

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 torr?

Torr is a unit of pressure measurement commonly used in vacuum applications. Let's delve into its definition, origin, and relevance.

Definition of Torr

The torr is a unit of pressure defined as 1/760 of standard atmospheric pressure. In other words, 760 torr is approximately equal to one atmosphere (atm).

1 torr1760 atm1 \text{ torr} \approx \frac{1}{760} \text{ atm}

It is also nearly equal to one millimeter of mercury (mmHg). More precisely:

1 torr1 mmHg1 \text{ torr} \approx 1 \text{ mmHg}

Origin and History

The torr is named after Italian physicist and mathematician Evangelista Torricelli (1608–1647), who invented the barometer in 1643. Torricelli's experiment demonstrated that air pressure could support a column of mercury, paving the way for pressure measurement.

Relation to Pascal (Pa)

The pascal (Pa) is the SI unit of pressure. The relationship between torr and pascal is as follows:

1 torr133.322 Pa1 \text{ torr} \approx 133.322 \text{ Pa}

Therefore, to convert from torr to pascals, you can use the formula:

Pressure in Pa=Pressure in torr×133.322\text{Pressure in Pa} = \text{Pressure in torr} \times 133.322

Real-World Examples and Applications

Torr is commonly used in fields that involve vacuum systems, such as:

  • Vacuum pumps: Vacuum pump performance is often rated in torr or millitorr (mTorr). For example, a roughing pump might achieve a vacuum of 10⁻³ torr.
  • Scientific instruments: Mass spectrometers, electron microscopes, and other analytical instruments require high vacuum conditions, often specified in torr or microtorr (µTorr).
  • Semiconductor manufacturing: Vacuum processes, such as chemical vapor deposition (CVD) and sputtering, use vacuum levels measured in torr to control deposition rates and film quality.
  • Space research: Simulating space environments requires extremely low pressures, which are measured in torr or even smaller units like picotorr (pTorr).
  • Vacuum Furnaces: Sintering, brazing, and heat treating of materials at reduced pressures, which improves the properties of the final product.

Interesting Facts

  • While torr and mmHg are often used interchangeably, they are technically slightly different due to variations in the definition of standard gravity.
  • The unit "micron" (µ) is sometimes used as a unit of pressure, where 1 micron = 1 mTorr.
  • The lowest pressure ever achieved in a laboratory setting is on the order of 101710⁻¹⁷ torr.

Frequently Asked Questions

Is torr the same as millimeters of mercury?

For nearly all practical purposes yes; a torr and a mmHg differ by less than a part in a million, so 1 cmH2O equals about 0.7355592 in either unit.

How many torr are 25 cmH2O?

Multiplying 25 by 0.7355592 gives 18.3890 torr.

Why use torr instead of pascals in vacuum work?

Vacuum practitioners have long quoted pressures in torr because gauges and historical data are calibrated that way, so converting cmH2O to torr keeps readings consistent with that convention.

What defines one torr exactly?

A torr is exactly 1/760 of a standard atmosphere, which is about 133.322 pascals.

How do I convert torr back to cmH2O?

Multiply the torr value by 1.35951; for example, 18.3890 torr returns to 25 cmH2O.

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