Understanding Standard Atmospheres to Bar Conversion
The standard atmosphere (atm) is a reference pressure defined as exactly 101,325 pascals, roughly the mean air pressure at sea level. The bar is a metric pressure unit defined as exactly 100,000 pascals, widely used in meteorology, engineering, and diving because it is close to one atmosphere yet has a tidy SI value. This conversion is common when relating physical-chemistry reference conditions to industrial gauge and process pressures quoted in bar.
Conversion Formula
To convert standard atmospheres to bar, multiply by this factor:
Step-by-Step Example
Convert 25 standard atmospheres to bar.
How to Convert Standard Atmospheres to Bar
Follow these steps to express a pressure in atmospheres as bar.
- Note the factor: One standard atmosphere equals 1.01325 bar.
- Take your value: Record the pressure in standard atmospheres.
- Multiply: Multiply by 1.01325 to obtain bar.
- Worked result: For 25 atm, 25 × 1.01325 = 25.3313 bar.
standard atmospheres to bar conversion table
| standard atmospheres (atm) | bar (bar) |
|---|---|
| 0 | 0 |
| 1 | 1.01325 |
| 2 | 2.0265 |
| 3 | 3.03975 |
| 4 | 4.053 |
| 5 | 5.06625 |
| 6 | 6.0795 |
| 7 | 7.09275 |
| 8 | 8.106 |
| 9 | 9.11925 |
| 10 | 10.1325 |
| 15 | 15.19875 |
| 20 | 20.265 |
| 25 | 25.33125 |
| 30 | 30.3975 |
| 40 | 40.53 |
| 50 | 50.6625 |
| 60 | 60.795 |
| 70 | 70.9275 |
| 80 | 81.06 |
| 90 | 91.1925 |
| 100 | 101.325 |
| 150 | 151.9875 |
| 200 | 202.65 |
| 250 | 253.3125 |
| 300 | 303.975 |
| 400 | 405.3 |
| 500 | 506.625 |
| 600 | 607.95 |
| 700 | 709.275 |
| 800 | 810.6 |
| 900 | 911.925 |
| 1000 | 1013.25 |
| 2000 | 2026.5 |
| 3000 | 3039.75 |
| 4000 | 4053 |
| 5000 | 5066.25 |
| 10000 | 10132.5 |
| 25000 | 25331.25 |
| 50000 | 50662.5 |
| 100000 | 101325 |
| 250000 | 253312.5 |
| 500000 | 506625 |
| 1000000 | 1013250 |
What is the standard atmosphere?
The standard atmosphere (atm) is a unit of pressure defined as a fixed reference value close to the average atmospheric pressure at sea level. It is widely used in chemistry, physics, engineering, and diving to express pressures relative to typical sea-level conditions.
Definition
The standard atmosphere is defined exactly as 101,325 pascals:
This is equivalent to 1013.25 hectopascals (millibars), 760 millimeters of mercury (torr), and about 14.6959 pounds per square inch. The value was fixed by the 10th General Conference on Weights and Measures (CGPM) in 1954.
Origin and History
Early pressure measurement grew from Evangelista Torricelli's 1643 barometer experiments, which showed the atmosphere supports a mercury column about 760 mm high. The "atmosphere" became a convenient reference for a whole unit of ambient pressure. In 1954 the CGPM adopted the exact value 101,325 Pa, based on a 760 mm mercury column at 0 °C under standard gravity, to remove the temperature and location dependence of earlier definitions.
Law and Notable Facts
The standard atmosphere is accepted for use with the SI but is not an SI unit; the SI unit of pressure is the pascal. IUPAC now recommends the bar (100,000 Pa) rather than the atmosphere as the standard pressure for reporting thermodynamic data, though "atm" remains common. Note that the technical atmosphere (at) is a different unit equal to 98,066.5 Pa.
Real-World Examples and Conversions
- Average sea-level air pressure is very close to 1 atm (101.325 kPa).
- Ocean pressure increases by roughly 1 atm for every 10 meters of seawater depth, so a diver at 30 m experiences about 4 atm total.
- A typical car tire inflated to 32 psi holds about 2.2 atm of gauge pressure.
- The pressure inside a champagne bottle is roughly 6 atm (about 608 kPa).
What is bar?
The bar is a metric unit of pressure, widely used in science, engineering, and industry. It's a convenient unit because it is close to standard atmospheric pressure on Earth. Below is detailed information about bar, it's origin, and some real-world examples.
Definition of Bar
The bar is defined as exactly Pascals (). The Pascal (Pa) is the SI unit of pressure, defined as one Newton per square meter (). Therefore:
Origin and History
The bar was introduced by British physicist Sir Napier Shaw in 1909. The goal was to have a unit of pressure that was close to atmospheric pressure but based on the metric system. The term "bar" comes from the Greek word "βάρος" (baros) meaning "weight."
Relation to Atmospheric Pressure
Standard atmospheric pressure at sea level is approximately bar. Because of this proximity, the bar and millibar (1 mbar = 0.001 bar) are frequently used in meteorology to measure atmospheric pressure. Historically, meteorologists used millibars, but now the SI unit, the hectopascal (hPa), is also widely used (1 hPa = 1 mbar).
Real-World Examples and Applications
- Tire Pressure: Car and bicycle tire pressures are often measured in bar or PSI (pounds per square inch). For example, a car tire might be inflated to 2.5 bar.
- Weather Reports: Atmospheric pressure in weather reports can be given in millibars or hectopascals, where 1013.25 mbar is standard atmospheric pressure.
- Scuba Diving: Divers often use bar to measure the pressure of compressed air in their tanks. A typical scuba tank might be filled to 200 bar.
- Industrial Processes: Many industrial processes, such as hydraulic systems and pressure testing, use bar as a convenient unit of measurement.
- Geology: Pressures deep within the Earth are often measured in kilobars (kbar), where 1 kbar = 1000 bar.
- Vacuum: While bar is not commonly used for measuring high vacuum, it's relevant when discussing rough or backing vacuum levels. For high vacuum, units like Torr or Pascal are more typical.
Interesting Facts
- The bar is a metric unit but not an SI unit. The SI unit for pressure is the Pascal (Pa).
- The millibar (mbar) is commonly used in meteorology.
- 1 bar is approximately equal to 0.987 atmospheres (atm).
Frequently Asked Questions
How many bar are in one standard atmosphere?
One standard atmosphere equals 1.01325 bar, because atm is defined as 101,325 Pa and one bar is exactly 100,000 Pa.
What is the conversion formula?
Multiply the number of atmospheres by 1.01325. For example, 3 atm equals 3.03975 bar.
Why isn't one atmosphere exactly one bar?
The bar was chosen as a round 100,000 Pa for convenience, whereas the atmosphere reflects the historically measured mean sea-level pressure of 101,325 Pa, leaving a 1.325% difference.
Where does this conversion come up?
It is common in chemistry, thermodynamics, and diving when standard reference pressures need to be expressed in the bar unit used on industrial gauges and dive computers.
How do I convert bar back to atmospheres?
Multiply the bar value by 0.9869233, so 5 bar equals about 4.93462 atm.
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Complete standard atmospheres conversion table
| Unit | Result |
|---|---|
| pascals (Pa) | 101325 Pa |
| kilopascals (kPa) | 101.325 kPa |
| megapascals (MPa) | 0.101325 MPa |
| hectopascals (hPa) | 1013.25 hPa |
| millibar (mbar) | 1013.25 mbar |
| bar (bar) | 1.01325 bar |
| torr (torr) | 760 torr |
| meters of water @ 4°C (mH2O) | 10.33227 mH2O |
| millimeters of mercury (mmHg) | 759.9999 mmHg |
| centimeters of water (cmH2O) | 1033.227 cmH2O |
| technical atmospheres (at) | 1.033227 at |
| centimeters of mercury (cmHg) | 75.99999 cmHg |
| pounds per square inch (psi) | 14.69595 psi |
| kilopound per square inch (ksi) | 0.01469595 ksi |
| Inches of mercury (inHg) | 29.92126 inHg |