Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp Solution

STEP 0: Pre-Calculation Summary
Formula Used
Temperature given Coefficient of Thermal Expansion = ((Isothermal Compressibility-Isentropic Compressibility)*Density*Molar Specific Heat Capacity at Constant Pressure)/(Volumetric Coefficient of Thermal Expansion^2)
TTE = ((KT-KS)*ρ*Cp)/(α^2)
This formula uses 6 Variables
Variables Used
Temperature given Coefficient of Thermal Expansion - (Measured in Kelvin) - Temperature given Coefficient of Thermal Expansion s the degree or intensity of heat present in a substance or object.
Isothermal Compressibility - (Measured in Square Meter per Newton) - The isothermal compressibility is the change in volume due to change in pressure at constant temperature.
Isentropic Compressibility - (Measured in Square Meter per Newton) - The Isentropic Compressibility is the change in volume due to change in pressure at constant entropy.
Density - (Measured in Kilogram per Cubic Meter) - The Density of a material shows the denseness of that material in a specific given area. This is taken as mass per unit volume of a given object.
Molar Specific Heat Capacity at Constant Pressure - (Measured in Joule Per Kelvin Per Mole) - Molar Specific Heat Capacity at Constant Pressure of a gas is the amount of heat required to raise the temperature of 1 mol of the gas by 1 °C at the constant pressure.
Volumetric Coefficient of Thermal Expansion - (Measured in 1 Per Kelvin) - Volumetric coefficient of thermal expansion is the tendency of matter to change its volume in response to a change in temperature.
STEP 1: Convert Input(s) to Base Unit
Isothermal Compressibility: 75 Square Meter per Newton --> 75 Square Meter per Newton No Conversion Required
Isentropic Compressibility: 70 Square Meter per Newton --> 70 Square Meter per Newton No Conversion Required
Density: 997 Kilogram per Cubic Meter --> 997 Kilogram per Cubic Meter No Conversion Required
Molar Specific Heat Capacity at Constant Pressure: 122 Joule Per Kelvin Per Mole --> 122 Joule Per Kelvin Per Mole No Conversion Required
Volumetric Coefficient of Thermal Expansion: 25 1 Per Kelvin --> 25 1 Per Kelvin No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
TTE = ((KT-KS)*ρ*Cp)/(α^2) --> ((75-70)*997*122)/(25^2)
Evaluating ... ...
TTE = 973.072
STEP 3: Convert Result to Output's Unit
973.072 Kelvin --> No Conversion Required
FINAL ANSWER
973.072 Kelvin <-- Temperature given Coefficient of Thermal Expansion
(Calculation completed in 00.020 seconds)

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Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp
​ LaTeX ​ Go Temperature given Coefficient of Thermal Expansion = ((Isothermal Compressibility-Isentropic Compressibility)*Density*Molar Specific Heat Capacity at Constant Pressure)/(Volumetric Coefficient of Thermal Expansion^2)
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​ LaTeX ​ Go Volumetric Coefficient of Compressibility = sqrt(((Isothermal Compressibility-Isentropic Compressibility)*Density*Molar Specific Heat Capacity at Constant Pressure)/Temperature)
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Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp Formula

​LaTeX ​Go
Temperature given Coefficient of Thermal Expansion = ((Isothermal Compressibility-Isentropic Compressibility)*Density*Molar Specific Heat Capacity at Constant Pressure)/(Volumetric Coefficient of Thermal Expansion^2)
TTE = ((KT-KS)*ρ*Cp)/(α^2)

What are the postulates of kinetic theory of gases?

1) Actual volume of gas molecules is negligible in comparison to the total volume of the gas. 2) no force of attraction between the gas molecules. 3) Particles of gas are in constant random motion. 4) Particles of gas collide with each other and with the walls of the container. 5)Collisions are perfectly elastic. 6) Different particles of the gas, have different speeds. 7) The average kinetic energy of the gas molecule is directly proportional to the absolute temperature.

How to Calculate Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp?

Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp calculator uses Temperature given Coefficient of Thermal Expansion = ((Isothermal Compressibility-Isentropic Compressibility)*Density*Molar Specific Heat Capacity at Constant Pressure)/(Volumetric Coefficient of Thermal Expansion^2) to calculate the Temperature given Coefficient of Thermal Expansion, The Temperature given coefficient of thermal expansion, compressibility factors and Cp is the degree or intensity of heat present in a substance or object, especially as expressed according to a comparative scale. Temperature given Coefficient of Thermal Expansion is denoted by TTE symbol.

How to calculate Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp using this online calculator? To use this online calculator for Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp, enter Isothermal Compressibility (KT), Isentropic Compressibility (KS), Density (ρ), Molar Specific Heat Capacity at Constant Pressure (Cp) & Volumetric Coefficient of Thermal Expansion (α) and hit the calculate button. Here is how the Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp calculation can be explained with given input values -> 973.072 = ((75-70)*997*122)/(25^2).

FAQ

What is Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp?
The Temperature given coefficient of thermal expansion, compressibility factors and Cp is the degree or intensity of heat present in a substance or object, especially as expressed according to a comparative scale and is represented as TTE = ((KT-KS)*ρ*Cp)/(α^2) or Temperature given Coefficient of Thermal Expansion = ((Isothermal Compressibility-Isentropic Compressibility)*Density*Molar Specific Heat Capacity at Constant Pressure)/(Volumetric Coefficient of Thermal Expansion^2). The isothermal compressibility is the change in volume due to change in pressure at constant temperature, The Isentropic Compressibility is the change in volume due to change in pressure at constant entropy, The Density of a material shows the denseness of that material in a specific given area. This is taken as mass per unit volume of a given object, Molar Specific Heat Capacity at Constant Pressure of a gas is the amount of heat required to raise the temperature of 1 mol of the gas by 1 °C at the constant pressure & Volumetric coefficient of thermal expansion is the tendency of matter to change its volume in response to a change in temperature.
How to calculate Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp?
The Temperature given coefficient of thermal expansion, compressibility factors and Cp is the degree or intensity of heat present in a substance or object, especially as expressed according to a comparative scale is calculated using Temperature given Coefficient of Thermal Expansion = ((Isothermal Compressibility-Isentropic Compressibility)*Density*Molar Specific Heat Capacity at Constant Pressure)/(Volumetric Coefficient of Thermal Expansion^2). To calculate Temperature given Coefficient of Thermal Expansion, Compressibility Factors and Cp, you need Isothermal Compressibility (KT), Isentropic Compressibility (KS), Density (ρ), Molar Specific Heat Capacity at Constant Pressure (Cp) & Volumetric Coefficient of Thermal Expansion (α). With our tool, you need to enter the respective value for Isothermal Compressibility, Isentropic Compressibility, Density, Molar Specific Heat Capacity at Constant Pressure & Volumetric Coefficient of Thermal Expansion 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 given Coefficient of Thermal Expansion?
In this formula, Temperature given Coefficient of Thermal Expansion uses Isothermal Compressibility, Isentropic Compressibility, Density, Molar Specific Heat Capacity at Constant Pressure & Volumetric Coefficient of Thermal Expansion. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Temperature given Coefficient of Thermal Expansion = ((Isothermal Compressibility-Isentropic Compressibility)*Density*(Molar Specific Heat Capacity at Constant Volume+[R]))/(Volumetric Coefficient of Thermal Expansion^2)
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