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The Coefficient of Volume Expansion is a constant that is multiplied in order to find the volume change in the system due to thermal expansion. Check FAQs
β=1TA
β - Coefficient of Volume Expansion?TA - Absolute Temperature?

Volume Expansivity for Ideal Gas Example

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With units
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Here is how the Volume Expansivity for Ideal Gas equation looks like with Values.

Here is how the Volume Expansivity for Ideal Gas equation looks like with Units.

Here is how the Volume Expansivity for Ideal Gas equation looks like.

0.0033Edit=1300Edit
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Volume Expansivity for Ideal Gas Solution

Follow our step by step solution on how to calculate Volume Expansivity for Ideal Gas?

FIRST Step Consider the formula
β=1TA
Next Step Substitute values of Variables
β=1300K
Next Step Prepare to Evaluate
β=1300
Next Step Evaluate
β=0.00333333333333333K⁻¹
LAST Step Rounding Answer
β=0.0033K⁻¹

Volume Expansivity for Ideal Gas Formula Elements

Variables
Coefficient of Volume Expansion
The Coefficient of Volume Expansion is a constant that is multiplied in order to find the volume change in the system due to thermal expansion.
Symbol: β
Measurement: Coefficient of Linear ExpansionUnit: K⁻¹
Note: Value can be positive or negative.
Absolute Temperature
Absolute temperature is temperature measured using the Kelvin scale where zero is absolute zero.
Symbol: TA
Measurement: TemperatureUnit: K
Note: Value should be greater than 0.

Other Formulas to find Coefficient of Volume Expansion

​Go Coefficient of Volume Expansion for Ideal Gas
β=1TA

Other formulas in Properties of Fluids category

​Go Specific Volume of Fluid given Mass
v=VTm
​Go Specific Total Energy
e=Em
​Go Specific Volume given Density
v=1ρ
​Go Density of Fluid
ρ=mVT

How to Evaluate Volume Expansivity for Ideal Gas?

Volume Expansivity for Ideal Gas evaluator uses Coefficient of Volume Expansion = 1/(Absolute Temperature) to evaluate the Coefficient of Volume Expansion, The Volume Expansivity for Ideal Gas formula is defined as the inverse of temperature. It is a property that represents the variation of the density of a fluid with temperature at constant pressure. The density of a fluid, in general, depends more strongly on temperature than it does on pressure, and the variation of density with temperature is responsible for numerous natural phenomena such as winds, currents in oceans, rise of plumes in chimneys, the operation of hot-air balloons, heat transfer by natural convection, and even the rise of hot air and thus the phrase “heat rises”, to quantify these effects, we need a property that represents the variation of the density of a fluid with temperature at constant pressure. The property that provides that information is the coefficient of volume expansion (or volume expansivity). Coefficient of Volume Expansion is denoted by β symbol.

How to evaluate Volume Expansivity for Ideal Gas using this online evaluator? To use this online evaluator for Volume Expansivity for Ideal Gas, enter Absolute Temperature (TA) and hit the calculate button.

FAQs on Volume Expansivity for Ideal Gas

What is the formula to find Volume Expansivity for Ideal Gas?
The formula of Volume Expansivity for Ideal Gas is expressed as Coefficient of Volume Expansion = 1/(Absolute Temperature). Here is an example- 0.003333 = 1/(300).
How to calculate Volume Expansivity for Ideal Gas?
With Absolute Temperature (TA) we can find Volume Expansivity for Ideal Gas using the formula - Coefficient of Volume Expansion = 1/(Absolute Temperature).
What are the other ways to Calculate Coefficient of Volume Expansion?
Here are the different ways to Calculate Coefficient of Volume Expansion-
  • Coefficient of Volume Expansion=1/(Absolute Temperature)OpenImg
Can the Volume Expansivity for Ideal Gas be negative?
Yes, the Volume Expansivity for Ideal Gas, measured in Coefficient of Linear Expansion can be negative.
Which unit is used to measure Volume Expansivity for Ideal Gas?
Volume Expansivity for Ideal Gas is usually measured using the Per Kelvin[K⁻¹] for Coefficient of Linear Expansion. Per Degree Celsius[K⁻¹] are the few other units in which Volume Expansivity for Ideal Gas can be measured.
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