Dive into the effortless conversion from at to kgf/m² with our Atmosphere Technical to Kilogram-force square Meter Converter, designed for precision and simplicity.
An atmosphere (atm) is a unit of pressure defined as the pressure exerted by the weight of air in the Earth's atmosphere at sea level. It is equivalent to 101,325 pascals (Pa) or 1.01325 bar. Historically, it was conceived as the pressure generated by a one-centimeter column of mercury at 0°C.
Definition of Kilogram-forceKilogram-force (kgf), or kilopond (kp), is a non-standard gravitational metric unit of force. It is equal to the force exerted by one kilogram of mass in standard Earth gravity (9.80665 m/s²). One kilogram-force is approximately 9.80665 newtons.
Atmosphere Technical (at) | Kilogram-force per Square Meter (kgf/m²) |
---|---|
0.1 at | 98.0665 kgf/m² |
0.2 at | 196.133 kgf/m² |
0.3 at | 294.1995 kgf/m² |
0.4 at | 392.266 kgf/m² |
0.5 at | 490.3325 kgf/m² |
0.6 at | 588.399 kgf/m² |
0.7 at | 686.4655 kgf/m² |
0.8 at | 784.532 kgf/m² |
0.9 at | 882.5985 kgf/m² |
1 at | 980.665 kgf/m² |
Example 1:
Convert 1 at to kgf/m²:
1 at = 98.0665 kgf/m²
Example 2:
Convert 2.5 at to kgf/m²:
2.5 at = 2.5 × 98.0665 kgf/m² = 245.16625 kgf/m²
The Atmosphere Technical to Kilogram-force square Meter Converter has its roots in the need to simplify industrial and scientific calculations. It translates the pressure from atmospheric units, commonly used in meteorology and aviation, to a unit that directly relates to force per unit area, applicable in engineering and physics.
Discover how the at to kgf/m² converter facilitates practical applications in various fields.
Example 1:
To convert 1 at to kgf/m²:
1 at = 98.0665 kgf/m²
Example 2:
To convert 3 at to kgf/m²:
3 at = 3 × 98.0665 kgf/m² = 294.1995 kgf/m²
1. What does this converter do?
This tool converts pressure from Atmosphere Technical (at) to Kilogram-force per Square Meter (kgf/m²).
2. Is this converter free to use?
Yes, our Atmosphere Technical to Kilogram-force square Meter Converter is completely free.
3. How accurate are the conversions?
The conversions are based on the standard conversion factor and are highly accurate.