Convert Technical atmosphere to Pressure Pascal

The Technical Atmosphere (symbol: at) is a unit of pressure that is not part of the International System of Units (SI) but is still used in some contexts, particularly in engineering. It represents the pressure exerted by a 1-kilogram force over an area of 1 square centimeter.

1. Defined Value:

   • 1 technical atmosphere (at) is defined as 98,066.5 pascals (Pa), which is equivalent to 98.0665 kilopascals (kPa) or approximately 0.9678 Standard Atmospheres (atm).

2. Basis of Definition:

   • The technical atmosphere is based on the idea of the force exerted by gravity on a mass of 1 kilogram over a specific area. Specifically, it considers a standard gravitational acceleration of 9.80665 meters per second squared (m/s²).

3. Usage:

   • The technical atmosphere is sometimes used in engineering fields, particularly in Europe, for expressing pressures in contexts like hydraulics, pneumatics, and other areas involving mechanical forces.
   • Although less common today, it might still be encountered in older documents, manuals, or in industries where legacy systems or traditional units are in use.

4. Comparison with Other Units:

   • The technical atmosphere is slightly less than the Pressure Standard Atmosphere (1 atm), which is 101,325 pascals. This means that 1 at is about 96.78% of 1 atm.
   • It’s important to note the distinction between the technical atmosphere and the standard atmosphere, as they represent slightly different pressure values.

5. Historical Context:

   • The technical atmosphere was more commonly used before the widespread adoption of the SI unit system, which uses the pascal (Pa) as the standard unit for pressure. As such, its use has declined in favor of SI units, but it remains relevant in certain specialized contexts.

In summary, the Technical Atmosphere (at) is a unit of pressure defined as the pressure exerted by a 1-kilogram force over an area of 1 square centimeter. Although not an SI unit, it has been used historically in engineering and is still encountered in some specialized applications.

Pressure Pascal (Pa) is the standard unit of pressure in the International System of Units (SI).

Pressure is a measure of how much force is applied over a certain area. Imagine pressing your hand against a wall; the harder you press, the more pressure you exert on the wall. Pressure helps us understand how forces are distributed over surfaces, and it's a crucial concept in fields like physics, engineering, and meteorology.

Pascal (Pa) is the unit used to measure this pressure. It is defined as the pressure exerted when a force of one newton is applied uniformly over an area of one square meter. Let's break this down:

• Newton: A newton (N) is a unit of force in the SI system. It is the amount of force required to accelerate a mass of one kilogram by one meter per second squared.
• Square Meter: This is a unit of area equal to the area of a square with sides that are each one meter long.

So, when you apply a force of one newton evenly across an area of one square meter, you create a pressure of one pascal.

In simpler terms, 1 Pascal (Pa) equals 1 Newton per square meter (N/m²).

To put it in perspective, one pascal is a very small amount of pressure. For example, the atmospheric pressure at sea level is about 101,325 pascals (Pa), which is often rounded to 100,000 Pa or 100 kilopascals (kPa). Another way to visualize it is that pressing lightly with a finger on a surface might exert a pressure of around 10,000 to 15,000 pascals.

In summary, Pressure Pascal (Pa) is the SI unit for measuring pressure, defined as the amount of force in newtons applied per square meter of area. It's a fundamental unit used to describe how forces are distributed across surfaces.