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Slope of Coexistence Curve given Specific Latent Heat Calculator

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Slope of Coexistence Curve Latent Heat

✖The Specific Latent Heat is energy released or absorbed, by a body or a thermodynamic system, during a constant-temperature process.ⓘ Specific Latent Heat [L]			+10% -10%
✖Molecular Weight is the mass of a given molecule.ⓘ Molecular Weight [MW]			+10% -10%
✖Temperature is the degree or intensity of heat present in a substance or object.ⓘ Temperature [T]			+10% -10%
✖The Change in volume is difference of initial and final volume.ⓘ Change in Volume [∆V]			+10% -10%

✖The Slope of Coexistence Curve from the Clausius-Clapeyron equation represented as dP/dT is the slope of the tangent to the coexistence curve at any point.ⓘ Slope of Coexistence Curve given Specific Latent Heat [dPbydT]

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Slope of Coexistence Curve given Specific Latent Heat Solution

STEP 0: Pre-Calculation Summary

Formula Used

Slope of Coexistence Curve = (Specific Latent Heat*Molecular Weight)/(Temperature*Change in Volume)
dPbydT = (L*MW)/(T*∆V)
This formula uses 5 Variables

Variables Used

Slope of Coexistence Curve - (Measured in Pascal per Kelvin) - The Slope of Coexistence Curve from the Clausius-Clapeyron equation represented as dP/dT is the slope of the tangent to the coexistence curve at any point.
Specific Latent Heat - (Measured in Joule per Kilogram) - The Specific Latent Heat is energy released or absorbed, by a body or a thermodynamic system, during a constant-temperature process.
Molecular Weight - (Measured in Kilogram) - Molecular Weight is the mass of a given molecule.
Temperature - (Measured in Kelvin) - Temperature is the degree or intensity of heat present in a substance or object.
Change in Volume - (Measured in Cubic Meter) - The Change in volume is difference of initial and final volume.

STEP 1: Convert Input(s) to Base Unit

Specific Latent Heat: 208505.9 Joule per Kilogram --> 208505.9 Joule per Kilogram No Conversion Required
Molecular Weight: 120 Gram --> 0.12 Kilogram (Check conversion here)
Temperature: 85 Kelvin --> 85 Kelvin No Conversion Required
Change in Volume: 56 Cubic Meter --> 56 Cubic Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

dPbydT = (L*MW)/(T*∆V) --> (208505.9*0.12)/(85*56)

Evaluating ... ...

dPbydT = 5.2564512605042

STEP 3: Convert Result to Output's Unit

5.2564512605042 Pascal per Kelvin --> No Conversion Required

FINAL ANSWER

5.2564512605042 ≈ 5.256451 Pascal per Kelvin <-- Slope of Coexistence Curve

(Calculation completed in 00.004 seconds)

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Slope of Coexistence Curve given Specific Latent Heat Formula

LaTeX Go

Slope of Coexistence Curve = (Specific Latent Heat*Molecular Weight)/(Temperature*Change in Volume)
dPbydT = (L*MW)/(T*∆V)

What is the Clausius–Clapeyron relation?

The Clausius–Clapeyron relation, named after Rudolf Clausius and Benoît Paul Émile Clapeyron, is a way of characterizing a discontinuous phase transition between two phases of matter of a single constituent. On a pressure–temperature (P–T) diagram, the line separating the two phases is known as the coexistence curve. The Clausius–Clapeyron relation gives the slope of the tangents to this curve.

How to Calculate Slope of Coexistence Curve given Specific Latent Heat?

Slope of Coexistence Curve given Specific Latent Heat calculator uses Slope of Coexistence Curve = (Specific Latent Heat*Molecular Weight)/(Temperature*Change in Volume) to calculate the Slope of Coexistence Curve, The Slope of Coexistence Curve given Specific Latent Heat from Clausius-Clapeyron equation represented as dP/dT is the slope of the tangent to the coexistence curve at any point. Slope of Coexistence Curve is denoted by dPbydT symbol.

How to calculate Slope of Coexistence Curve given Specific Latent Heat using this online calculator? To use this online calculator for Slope of Coexistence Curve given Specific Latent Heat, enter Specific Latent Heat (L), Molecular Weight (MW), Temperature (T) & Change in Volume (∆V) and hit the calculate button. Here is how the Slope of Coexistence Curve given Specific Latent Heat calculation can be explained with given input values -> 5.256451 = (208505.9*0.12)/(85*56).

FAQ

What is Slope of Coexistence Curve given Specific Latent Heat?

The Slope of Coexistence Curve given Specific Latent Heat from Clausius-Clapeyron equation represented as dP/dT is the slope of the tangent to the coexistence curve at any point and is represented as dPbydT = (L*MW)/(T*∆V) or Slope of Coexistence Curve = (Specific Latent Heat*Molecular Weight)/(Temperature*Change in Volume). The Specific Latent Heat is energy released or absorbed, by a body or a thermodynamic system, during a constant-temperature process, Molecular Weight is the mass of a given molecule, Temperature is the degree or intensity of heat present in a substance or object & The Change in volume is difference of initial and final volume.

How to calculate Slope of Coexistence Curve given Specific Latent Heat?

The Slope of Coexistence Curve given Specific Latent Heat from Clausius-Clapeyron equation represented as dP/dT is the slope of the tangent to the coexistence curve at any point is calculated using Slope of Coexistence Curve = (Specific Latent Heat*Molecular Weight)/(Temperature*Change in Volume). To calculate Slope of Coexistence Curve given Specific Latent Heat, you need Specific Latent Heat (L), Molecular Weight (MW), Temperature (T) & Change in Volume (∆V). With our tool, you need to enter the respective value for Specific Latent Heat, Molecular Weight, Temperature & Change in Volume 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 Slope of Coexistence Curve?

In this formula, Slope of Coexistence Curve uses Specific Latent Heat, Molecular Weight, Temperature & Change in Volume. We can use 3 other way(s) to calculate the same, which is/are as follows -

Slope of Coexistence Curve = Enthalpy Change/(Temperature*Change in Volume)
Slope of Coexistence Curve = Change in Entropy/Change in Volume
Slope of Coexistence Curve = Latent Heat/(Temperature*Change in Volume)

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