Gay-Lussac's Law (of temperature/pressure) Calculator

vCalc Reviewed

The Math / Science

This calculator accesses the following equations from its four buttons:

Gay-Lussac Law (final temperature) - equation computing final temperature of an ideal gas given knowledge of the initial temperature/pressure state of the gas before a pressure change

Gay-Lussac Law (initial temperature) - equation computing initial temperature of an ideal gas given knowledge of the final temperature/pressure state of the gas after a pressure change

Gay-Lussac Law (final pressure) - equation computing resultant pressure of an ideal gas given knowledge of the initial temperature/pressure state of the gas before a temperature change

Gay-Lussac Law (initial pressure) - equation computing initial pressure of an ideal gas given knowledge of the final temperature/pressure state of the gas after a temperature change

Chemistry Calculators

R - Gas Constant: 8.3144626181532 J/(K⋅mol)
Boyle's Law Calculator: P₁ • V₁ = P₂ • V₂
Charles Law Calculator: V₁• T₂ = V₂ • T₁
Combined Gas Law Calculator: P•V / T= k
Gay-Lussac Law: T₁•P₂ =T₂•P₁
Ideal Gas Law: P•V = n•R•T
Bragg's Law: n·λ = 2d·sinθ
Hess' Law: ΔH⁰_rxn=ΔH⁰_a+ΔH⁰_b+ΔH⁰_c+ΔH⁰_d
Internal Energy: ΔU = q + ω
Activation Energy: E_a = (R*T₁⋅T₂)/(T₁ - T₂) ⋅ ln(k₁/k₂)
Arrhenius Equation: k = Ae^E_a/(RT)
Clausius-Clapeyron Equation: ln(P₂/P₁) = (ΔH_vap)/R * (1/T₁ - 1/T₂)
Compressibility Factor: Z = (p*V_m)/(R*T)
Peng-Robinson Equation of State: p = (R*T)/(V_m - b) - (a*α)/(V_m² + 2*b*V_m - b²)
Reduced Specific Volume: v_r = v/(R* T_cr/ P_c)
Van't Hoff Equation: ΔH⁰ = R * ( -ln(K₂/K₁))/ (1/T₁ - 1/T₂)

REFERENCE

[1] Temperature Pressure law
Source: Wikipedia / Evan Mason
URL: https://en.wikipedia.org/wiki/Gay-Lussac%27s_law#mediaviewer/File:Temperature_Pressure_law.svg

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