Carnot Cycle: Difference between revisions

Latest revision as of 09:31, 17 August 2024

Introduction

Isothermal expansion (No heat transfer / energy transfers): Heat is transferred from the hot reservoir to the gas.
Isentropic (reversible adiabatic: Heat transfers / no energy transfer) expansion: without transfer of heat to or from a system, so that Q = 0, is called adiabatic, and such a system is said to be adiabatically isolated. Eg. the compression of a gas within a cylinder of an engine is assumed to be rapid that little of the system's energy is transferred out as heat to the surroundings.
Isothermal compression
Isentropic compression

Ideal Gas

$pV=nRT$ , or more generally polytropic process: $pV^{\gamma }=C$ , where is different processes depending on the value of the n:

n = 0: isobaric
n = ∞: isochoric
n = 1: isothermal
n = γ: isentropic (adiabatic)

Adiabatic index $\gamma =c_{p}/c_{v}$ is for the air 7/5. For the ideal gas we have $p^{1-\gamma }T^{\gamma }=C$ and $TV^{\gamma -1}=C$ .

(n=1) Isothermal compression: T is constant, thus we have $p=C/V$ .
(n=γ) Isentropic $p=C/V^{\gamma }$

@@ Line 2: / Line 2: @@
 == Introduction ==
-# Isothermal expansion: Heat is transferred from the hot reservoir to the gas.
+# Isothermal expansion (No heat transfer / energy transfers): Heat is transferred from the hot reservoir to the gas.
-# Isentropic (reversible adiabatic) expansion
+# Isentropic (reversible adiabatic: Heat transfers / no energy transfer) expansion: without transfer of heat to or from a system, so that Q = 0, is called adiabatic, and such a system is said to be adiabatically isolated. Eg. the compression of a gas within a cylinder of an engine is assumed to be rapid that little of the system's energy is transferred out as heat to the surroundings.
 # Isothermal compression
 # Isentropic compression
@@ Line 9: / Line 9: @@
 == Ideal Gas ==
-<math> pV = nRT</math>
+[[File:CarnotCycle pvDiagram simple.png|thumb]]
-# Isothermal compression: T is constant, thus we have <math>p = </math>cons /T.
+<math> pV = nRT</math>, or more generally polytropic process: <math>pV^\gamma = C</math>, where is different processes depending on the value of the ''n'':
+# n = 0: isobaric
+# n = ∞: isochoric
+# n = 1: isothermal
+# n = γ: isentropic (adiabatic)
+Adiabatic index <math>\gamma = c_p/c_v</math> is for the air 7/5. For the ideal gas we have
+<math>p^{1-\gamma} T^\gamma = C</math> and <math>TV^{\gamma-1} = C</math>.
-== Air ==
-Adiabatic index <math>\gamma = c_p/c_v</math> is for the air 7/5.
+# (n=1) Isothermal compression: T is constant, thus we have <math>p =C/V </math>.
+# (n=γ) Isentropic <math>p=C/V^\gamma</math>

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Carnot Cycle: Difference between revisions

Latest revision as of 09:31, 17 August 2024

Introduction

Ideal Gas

Navigation

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