Solving Problems Using Ratios: Tips & Tricks

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Solving physics problems using ratios can simplify complex calculations, particularly in thermodynamics. Recognizing closed systems and understanding fundamental laws, such as the gas law, are essential for applying this method effectively. Dimensional analysis aids in identifying relationships between variables, allowing for easier problem-solving. The discussion highlights how manipulating equations, like PV = nRT, can lead to useful ratios such as P1/T1 = P2/T2. Mastering these concepts can enhance problem-solving skills in physics.
Substance D
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Hello,

I'm currently in my 2nd year of physics and one thing I've noticed is how often problems can be solved using ratios, for example I had a problem in my thermodynamics class that involved finding a temperature after knowing its pressure and using the triple-point of water and its pressure as a reference point, I had put so much effort into this question and could not understand it, then a friend in my class solved in very easily using ratios. This is something that happens frequently with me (I think I over think the issue), anyways... does anyone have any tips in recognizing this type of problem solving using a ratio?

Thanks
:smile:
 
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Look for closed systems.
Know general laws like the gas law.
Recognise opposing effects, eg. temperature and pressure.

Dimensional analysis is also a big help.
 
I guess the problem I have with it is, if I have two equations, like with this example it was PV = nRT , but in this case I would have that equation twice (one for the totally known system and one for the "half" known system), and since n,R and V are constant I can just ignore them, but what is it that allows me to then say P1/T1 = P2/T2, which is what I did to solve for the unknown temp... does my question make sense, I hope it does

Thanks for the reply
 
I am not sure if understood your question.
For this example, it is quite simple:
1st state : P1V1/T1 =nR and 2nd state: P2V2/T2 =nR so
P1V1/T1 = P2V2/T2
That equation holds for any fixed amount of gas (ideal)
So you can have some other derivative equations :
T = const ==> P1V1=P2V2
V=const ==> P1/T1=P2/T2 etc..
 
oh, ok, yeah I get it now. thanks :)
 

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