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## Temperature lapse rate in terms of gas constant Solution

STEP 0: Pre-Calculation Summary
Formula Used
temperature_lapse_rate = (-Acceleration Due To Gravity/Universal Gas Constant)*((Specific constant-1)/(Specific constant))
λ = (-g/R)*((K-1)/(K))
This formula uses 3 Variables
Variables Used
Acceleration Due To Gravity - The Acceleration Due To Gravity is acceleration gained by an object because of gravitational force. (Measured in Meter per Square Second)
Universal Gas Constant- Universal Gas Constant is a physical constant that appears in an equation defining the behavior of a gas under theoretically ideal conditions. Its unit is joule*kelvin−1*mole−1.
Specific constant- Specific constant is the standard constant.
STEP 1: Convert Input(s) to Base Unit
Acceleration Due To Gravity: 9.8 Meter per Square Second --> 9.8 Meter per Square Second No Conversion Required
Universal Gas Constant: 8.314 --> No Conversion Required
Specific constant: 1 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
λ = (-g/R)*((K-1)/(K)) --> (-9.8/8.314)*((1-1)/(1))
Evaluating ... ...
λ = 0
STEP 3: Convert Result to Output's Unit
0 --> No Conversion Required
0 <-- Temperature lapse rate
(Calculation completed in 00.015 seconds)

## < 9 Pressure and its measurements Calculators

Temperature lapse rate in terms of gas constant
temperature_lapse_rate = (-Acceleration Due To Gravity/Universal Gas Constant)*((Specific constant-1)/(Specific constant)) Go
Pressure at a point in piezometer in terms of mass and volume
pressure = (Mass of water*Acceleration Due To Gravity*Height of water above bottom of wall)/Volume of water Go
Pressure head in terms of density
pressure_head = Pressure above atmospheric pressure/(Density of Fluid*Acceleration Due To Gravity) Go
Height of liquid in piezometer
Height_of_liquid_in_tube = Water pressure/(Water Density*Acceleration Due To Gravity) Go
Pressure at any point in liquid
pressure = Density*Acceleration Due To Gravity*Pressure Head Go
Force on plunger in terms of intensity
Force_acting_on_hydraulic_plunger = Pressure intensity*Area of plunger Go
Area of plunger
Area_of_hydraulic_plunger = Force acting on plunger/Pressure intensity Go
Hydrostatic law
weight_density = Density of Fluid*Acceleration Due To Gravity Go
Absolute pressure in terms of gauge pressure
absolute_pressure = Gauge Pressure+Atmospheric Pressure Go

### Temperature lapse rate in terms of gas constant Formula

temperature_lapse_rate = (-Acceleration Due To Gravity/Universal Gas Constant)*((Specific constant-1)/(Specific constant))
λ = (-g/R)*((K-1)/(K))

## What is meant by temperature lapse rate?

The Lapse Rate is the rate at which temperature changes with height in the Atmosphere. Lapse rate nomenclature is inversely related to the change itself: if the lapse rate is positive, the temperature decreases with height; conversely if negative, the temperature increases with height.

## What are the causes of temperature lapse rate?

Earth's environmental lapse rate is the decrease in temperature with increasing altitude in the atmosphere. The density of air molecules in the atmosphere affects the air pressure, the force of air exerted on Earth's surface, which is the highest at sea level and steadily decreases with altitude.

## How to Calculate Temperature lapse rate in terms of gas constant?

Temperature lapse rate in terms of gas constant calculator uses temperature_lapse_rate = (-Acceleration Due To Gravity/Universal Gas Constant)*((Specific constant-1)/(Specific constant)) to calculate the Temperature lapse rate, The temperature lapse rate in terms of gas constant formula is defined as the rate at which an atmospheric variable, normally temperature in Earth's atmosphere, falls with altitude. Temperature lapse rate is denoted by λ symbol.

How to calculate Temperature lapse rate in terms of gas constant using this online calculator? To use this online calculator for Temperature lapse rate in terms of gas constant, enter Acceleration Due To Gravity (g), Universal Gas Constant (R) & Specific constant (K) and hit the calculate button. Here is how the Temperature lapse rate in terms of gas constant calculation can be explained with given input values -> 0 = (-9.8/8.314)*((1-1)/(1)).

### FAQ

What is Temperature lapse rate in terms of gas constant?
The temperature lapse rate in terms of gas constant formula is defined as the rate at which an atmospheric variable, normally temperature in Earth's atmosphere, falls with altitude and is represented as λ = (-g/R)*((K-1)/(K)) or temperature_lapse_rate = (-Acceleration Due To Gravity/Universal Gas Constant)*((Specific constant-1)/(Specific constant)). The Acceleration Due To Gravity is acceleration gained by an object because of gravitational force, Universal Gas Constant is a physical constant that appears in an equation defining the behavior of a gas under theoretically ideal conditions. Its unit is joule*kelvin−1*mole−1 & Specific constant is the standard constant.
How to calculate Temperature lapse rate in terms of gas constant?
The temperature lapse rate in terms of gas constant formula is defined as the rate at which an atmospheric variable, normally temperature in Earth's atmosphere, falls with altitude is calculated using temperature_lapse_rate = (-Acceleration Due To Gravity/Universal Gas Constant)*((Specific constant-1)/(Specific constant)). To calculate Temperature lapse rate in terms of gas constant, you need Acceleration Due To Gravity (g), Universal Gas Constant (R) & Specific constant (K). With our tool, you need to enter the respective value for Acceleration Due To Gravity, Universal Gas Constant & Specific constant and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Temperature lapse rate?
In this formula, Temperature lapse rate uses Acceleration Due To Gravity, Universal Gas Constant & Specific constant. We can use 9 other way(s) to calculate the same, which is/are as follows -
• weight_density = Density of Fluid*Acceleration Due To Gravity
• pressure_head = Pressure above atmospheric pressure/(Density of Fluid*Acceleration Due To Gravity)
• Force_acting_on_hydraulic_plunger = Pressure intensity*Area of plunger
• Area_of_hydraulic_plunger = Force acting on plunger/Pressure intensity
• pressure = Density*Acceleration Due To Gravity*Pressure Head
• absolute_pressure = Gauge Pressure+Atmospheric Pressure
• pressure = (Mass of water*Acceleration Due To Gravity*Height of water above bottom of wall)/Volume of water
• Height_of_liquid_in_tube = Water pressure/(Water Density*Acceleration Due To Gravity)
• temperature_lapse_rate = (-Acceleration Due To Gravity/Universal Gas Constant)*((Specific constant-1)/(Specific constant))
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