kilopascals (kPa) to technical atmospheres (at) conversion

1 kPa = 0.01019716 atatkPa
Formula
1 kPa = 0.01019716 at

Understanding Kilopascals to Technical Atmospheres Conversion

A kilopascal (kPa) is the SI pressure unit equal to 1,000 pascals. The technical atmosphere (at) is a metric-gravitational unit defined as one kilogram-force per square centimetre, equal to exactly 98,066.5 pascals (98.0665 kPa). It was common in older European engineering — especially for hydraulics, pneumatics, and boiler ratings — before the pascal became standard, and still appears on legacy gauges and datasheets.

Conversion Formula

1 kPa=0.01019716 at1\ \text{kPa} = 0.01019716\ \text{at}

To convert kilopascals to technical atmospheres, multiply by this factor:

at=kPa×0.01019716\text{at} = \text{kPa} \times 0.01019716

Step-by-Step Example

Convert 25 kilopascals to technical atmospheres.

at=25×0.01019716=0.254929 at\text{at} = 25 \times 0.01019716 = 0.254929\ \text{at}

How to Convert Kilopascals to Technical Atmospheres

Convert SI kilopascals into technical atmospheres with one multiplication.

  1. Take your pressure in kilopascals: For example, 25 kPa.
  2. Multiply by 0.01019716: This is the number of technical atmospheres in one kilopascal.
  3. Calculate: 25×0.01019716=0.25492925 \times 0.01019716 = 0.254929.
  4. Report the result: 25 kilopascals equals about 0.254929 technical atmospheres.

kilopascals to technical atmospheres conversion table

kilopascals (kPa)technical atmospheres (at)
00
10.01019716
20.02039432
30.03059149
40.04078865
50.05098581
60.06118297
70.07138013
80.0815773
90.09177446
100.1019716
150.1529574
200.2039432
250.2549291
300.3059149
400.4078865
500.5098581
600.6118297
700.7138013
800.815773
900.9177446
1001.019716
1501.529574
2002.039432
2502.549291
3003.059149
4004.078865
5005.098581
6006.118297
7007.138013
8008.15773
9009.177446
100010.19716
200020.39432
300030.59149
400040.78865
500050.98581
10000101.9716
25000254.9291
50000509.8581
1000001019.716
2500002549.291
5000005098.581
100000010197.16

What is the kilopascal?

Understanding Kilopascals (kPa)

Kilopascals (kPa) are a unit of pressure within the International System of Units (SI). Specifically, it's a multiple of the pascal (Pa), where "kilo" signifies a factor of one thousand. Therefore, 1 kPa equals 1000 Pascals.

Definition of Pressure

Pressure is defined as the amount of force applied perpendicular to a surface per unit area over which that force is distributed. Mathematically, this can be expressed as:

P=FAP = \frac{F}{A}

Where:

  • PP = Pressure
  • FF = Force
  • AA = Area

The SI unit for pressure is the Pascal (Pa), which is equivalent to one Newton per square meter (N/m2N/m^2). Since a Pascal is a relatively small unit, the kilopascal (kPa) is often used for more practical measurements.

How Kilopascals Are Formed

The pascal (Pa) is derived from fundamental SI units: kilograms (kg), meters (m), and seconds (s). 1 Pa is defined as the pressure exerted by a force of 1 Newton (1 kg⋅m/s²) over an area of 1 square meter. Kilopascals simply multiply this pascal unit by 1000. Thus, 1 kPa = 1000 N/m2N/m^2

Connection to Blaise Pascal

The unit "pascal" is named after Blaise Pascal, a 17th-century French mathematician, physicist, and philosopher. Pascal made significant contributions to the study of fluid pressure and its applications. Pascal's Law states that pressure applied to a confined fluid is transmitted equally in all directions throughout the fluid. This principle is crucial in hydraulic systems. Learn more about Blaise Pascal.

Real-World Examples of Kilopascals

  • Atmospheric Pressure: Standard atmospheric pressure at sea level is approximately 101.325 kPa. This is often used as a reference point.
  • Tire Pressure: Car tire pressure is typically measured in kPa (or PSI). A common tire pressure might be around 200-240 kPa.
  • Water Pressure: The water pressure in your home plumbing is often in the range of 300-500 kPa.
  • Hydraulic Systems: Hydraulic systems in machinery (e.g., car brakes, construction equipment) operate at pressures measured in megapascals (MPa), which are equal to 1000 kPa. For example, a hydraulic press might operate at 20 MPa (20,000 kPa).
  • Weather Reporting: Meteorologists often use kilopascals to report atmospheric pressure. Changes in atmospheric pressure are indicative of weather patterns.
  • Pressure Cookers: Pressure cookers increase the boiling point of water by raising the internal pressure, often reaching pressures of 110 kPa to allow for faster cooking.

What is the technical atmosphere?

The technical atmosphere (at) is a non-SI unit of pressure equal to one kilogram-force per square centimeter. It was widely used in engineering, especially in Europe, before the pascal became standard.

Definition

The technical atmosphere is defined as the pressure of one kilogram-force acting on one square centimeter:

1 at=98066.5 Pa1\ \text{at} = 98066.5\ \text{Pa}

This equals exactly 1 kgf/cm² (98,066.5 Pa), because standard gravity is 9.80665 m/s². It is close to, but distinct from, the standard atmosphere (atm = 101,325 Pa) and the bar (100,000 Pa).

Origin and History

The technical atmosphere arose from the gravitational metric system of units, which used the kilogram-force rather than the newton. Expressing pressure as kilogram-force per square centimeter was intuitive for engineers weighing loads, and the unit became common in mechanical and hydraulic engineering, boilers, and pneumatics through much of the 20th century.

Law and Notable Facts

The technical atmosphere is not part of the SI and its use is discouraged in favor of the pascal or bar. It is easily confused with the standard atmosphere; the two differ by about 3.3%. Gauge and absolute variants were often written "atü" (gauge) and "ata" (absolute) in German-language engineering.

Real-World Examples and Conversions

  • 1 at = 1 kgf/cm² = 98.0665 kPa ≈ 0.9678 atm.
  • 1 at ≈ 14.223 psi, close to but slightly below the 14.696 psi of one standard atmosphere.
  • A pressure of 10 at (about 981 kPa) is a common rating benchmark for industrial hydraulic components.
  • 1 at ≈ 0.980665 bar, so the bar and technical atmosphere differ by under 2%.

Frequently Asked Questions

How many technical atmospheres are in a kilopascal?

One kilopascal equals about 0.01019716 at, because one technical atmosphere is exactly 98,066.5 pascals (one kgf/cm²).

How do I convert technical atmospheres back to kilopascals?

Multiply the at value by 98.0665, the reciprocal factor. So 1 at equals exactly 98.0665 kilopascals.

What is the difference between a technical atmosphere and a standard atmosphere?

A technical atmosphere (at) is 98.0665 kPa (1 kgf/cm²), while a standard atmosphere (atm) is 101.325 kPa; the two differ by about 3.3% and should not be confused.

Where is the technical atmosphere still used?

It survives on older European hydraulic and pneumatic equipment, compressor and boiler ratings, and legacy engineering documents that predate SI adoption.

What is 25 kilopascals in technical atmospheres?

25 kilopascals equals about 0.254929 at.

Complete kilopascals conversion table

kPa
UnitResult
pascals (Pa)1000 Pa
megapascals (MPa)0.001 MPa
hectopascals (hPa)10 hPa
millibar (mbar)10 mbar
bar (bar)0.01 bar
torr (torr)7.500617 torr
meters of water @ 4°C (mH2O)0.1019716 mH2O
millimeters of mercury (mmHg)7.500616 mmHg
standard atmospheres (atm)0.009869233 atm
centimeters of water (cmH2O)10.19716 cmH2O
technical atmospheres (at)0.01019716 at
centimeters of mercury (cmHg)0.7500616 cmHg
pounds per square inch (psi)0.1450377 psi
kilopound per square inch (ksi)0.0001450377 ksi
Inches of mercury (inHg)0.2952998 inHg