How many 1 at to kPa

It is simply to convert 1 at to kPa here. Conversion of 1 atm to kpa is quick and precise with the tool below. Pressure conversion is important measurements in various fields.

Formula 1 atm to kpa

1 at
98.067 kPa
1 kPa
0.0102 at
Example: convert 1 at to kPa:
1 at
98.067 kPa
98.067 kPa

Conversion Table 1 atm to kpa

atmosphere technical (at) kilopascal (kPa)
0.4 at 39.2266 kPa
0.5 at 49.03325 kPa
0.6 at 58.8399 kPa
0.7 at 68.64655 kPa
0.8 at 78.4532 kPa
0.9 at 88.25985 kPa
1 at 98.0665 kPa
1.1 at 107.87315 kPa
1.2 at 117.6798 kPa
1.3 at 127.48645 kPa
1.4 at 137.2931 kPa
1.5 at 147.09975 kPa


For what purposes might you need to convert 1 atm to kpa?

Determining relevant states of pressure involves converting 1 atm to kpa. It is an essential computation in many scientific and engineering applications, particularly with regard to the physics and chemistry concerns that focus on fluid flow. Pressure measurements need to be standardized in order to have uniform, accurate results. The kilopascals are highly recommended and selected by most scientists for use since it is considered an SI unit.

This conversion finds remarkable relevance in laboratory experiments, industrial processes, and environmental studies when accurate measurements in relation to pressure are required to be obtained. Moreover, when engineering works in disciplines like civil or mechanical engineering are regarding the works of structural or fluid mechanics, then kilopascals, one of the most commonly used units, are used extensively.

It is important to bring a conversion from 1 atmospheres technical to kilopascals so that the rendering of pressure is kept uniform and accurate across different genres of science and engineering.

Who might want to convert 1 atm to kpa?

Converting atmospheric pressure from 1 atmospheres to kilopascals is crucial in various scientific and engineering fields:

  • Physical and Chemical Scientists: Align with SI Units in labs for standardized experiments.
  • Environmental Scientists: Ensures accuracy in environmental monitoring; kPa is the standard unit.
  • Engineers (Civil, Mechanical, Chemical): Vital for safety and efficiency in industrial processes and material testing.
  • Atmospheric and Climate Researchers: Essential for detailed atmospheric studies and climate modeling.
  • Material Scientists: Prefers kPa for consistency in studying material behavior.

This conversion of 1 atm to kpa is necessary for accuracy, international standards, and reliable global scientific and engineering practices.