Pressure in atmosphere: Difference between revisions

Introduction

ISO2533:1975

The case in Toposhere (<10 km).

• Lapse rate +6.5 °C/km
• Base temp 19.0 °C
• Base atmospheric pressure 108,900 Pa equals 1.075 atm
• Base atmospheric density 1.2985 kg/m3

International Standard Atmosphere

https://en.wikipedia.org/wiki/International_Standard_Atmosphere

Consider the function in GY91's BMP280-3.3, eg at https://startingelectronics.org/tutorials/arduino/modules/pressure-sensor/

Earth's atmosphere's changes in

• Pressure ${\displaystyle P}$
• Temperature ${\displaystyle T}$
• Density ${\displaystyle \rho }$
• Viscosity ${\displaystyle \eta }$ or ${\displaystyle \mu }$

Hydrostatic balance ${\displaystyle {\frac {dP}{dh}}=-\rho g}$ The ideal gas law ${\displaystyle P=\rho RT}$

Reference atmospheric model

How the ideal gas properties change (mainly) as a function of altitude (etc).

Static atmospheric model

${\displaystyle \rho ={\frac {MP}{RT}}}$ and ${\displaystyle dP=-g\rho dh}$ (see above).

Standard atmosphere

Isothermal-barotropic approximation and scale height

Temperature and molecular weight are constant: density and pressure are exponential functions of altitude.

The US standard atmosphere

More realistic temperature function, consisting of eight data points connected by straight lines, which is---of course---an approximation.

NASA Global Reference Atmospheric Models GRAM

Simplified model from Weather.gov

https://www.weather.gov/media/epz/wxcalc/pressureAltitude.pdf

${\displaystyle h=44307.70\left(1-\left({\frac {p}{1013.25}}\right)^{0.190284}\right)}$