Adiabatic Expansion - Need help getting started

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Homework Help Overview

The discussion revolves around an adiabatic expansion problem involving the ignition of a gas by compressing it from 1000 degrees Celsius to 27 degrees Celsius. The original poster seeks guidance on determining the necessary volume change ratio, expressing uncertainty due to the limited information provided.

Discussion Character

  • Exploratory, Assumption checking

Approaches and Questions Raised

  • Participants inquire about the type of gas involved, suggesting that its classification (monoatomic, diatomic, or polyatomic) may influence the approach. The adiabatic equation and ideal gas law are mentioned, but no specific methods are detailed.

Discussion Status

The discussion is ongoing, with participants exploring the implications of missing information about the gas type. Some guidance regarding the adiabatic equation has been introduced, but no consensus or definitive direction has emerged yet.

Contextual Notes

Key constraints include the lack of information about the gas type and its properties, which may affect the calculations and assumptions needed for the problem.

Skyblitz
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Hi, I just need help getting started on a question.. I'm not even sure where to begin:

It is desired to ignite a gas at 1000 degrees celsius by compressing it adiabatically to 27 degrees celsius.

a) by what ratio must its volume be changed?

I'm not really sure how to approach this question since it seems so little information is given. Any help is appreciated!
 
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What type of gas it is

Is it a monoatomic Or diatomic or polyatomic

For Adiabatic Equation we have

[tex]P_1V_1^{\gamma}=P_2V_2^{\gamma}[/tex]

For ideal gas

PV=nRT
 
Hm, it does not say :frown:
 
Originally posted by Skyblitz
Hm, it does not say :frown:

Is the name of gas stated
 
Unfortunately not.. what I posted in the first message is all that it says. :\
 
At such an high temp u can assume it to be in dissociated form
 

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