Mechanical Engineering - Thermodynamics - Discussion
Discussion Forum : Thermodynamics - Section 2 (Q.No. 8)
8.
The absolute pressure of a given mass of a perfect gas varies inversely as its volume, when the temperature remains constant. This statement is known as Charles' law.
Discussion:
8 comments Page 1 of 1.
Kajal Patil said:
5 years ago
1.Gay lussac law ( Volume => const ) Isochoric.
P α T.
2. Charles law ( Pressure => const ) Isobaric.
V α T.
3. Boyle's law ( Temperature => const ) Isothermal
P α 1/V.
4. Hyperbolic process
P*V = constant.
P α T.
2. Charles law ( Pressure => const ) Isobaric.
V α T.
3. Boyle's law ( Temperature => const ) Isothermal
P α 1/V.
4. Hyperbolic process
P*V = constant.
(2)
Solomon said:
8 years ago
Boyles law: also p is inversely proportional to its volume.
But Charles law states that volume is directly proportional to is the temperature at a constant pressure.
But Charles law states that volume is directly proportional to is the temperature at a constant pressure.
Batman said:
9 years ago
This is Boyle's Law.
B hari said:
1 decade ago
@Nikhil.
Charles Law : V proportional to T at cons P and.
P pro T at cons V.
Boyles Law: P inversely Prop to V.
Gay Lussac's Law: P prop to T.
Charles Law : V proportional to T at cons P and.
P pro T at cons V.
Boyles Law: P inversely Prop to V.
Gay Lussac's Law: P prop to T.
Nikhil said:
1 decade ago
Charles Law : v proportional to T.
Boyles Law: p Prop to V.
Gay Lussac's Law: P prop to T.
Boyles Law: p Prop to V.
Gay Lussac's Law: P prop to T.
Pratik said:
1 decade ago
T1/T2 = V1/V2, if P kept constant.
Amit said:
1 decade ago
Charles Law : Volume is directly proportional to the Temperature if the pressure and the amount of gas remains constant.
Chetanraju K.V said:
1 decade ago
Charles' law PV = constant (TEMP).
P/V = constant.
P/V = constant.
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