Brandon Snider Posted December 11, 2012 Posted December 11, 2012 I have a chamistry final tomorrow and was trying to study. I my professor's notes, I found an altered form of the ideal gas equation PV=nRT. It's been quite a while since I've had a good math course, so I'm wondering if someone here can show me how PV=nRT is rearranged to give n/v = P/RT I'm having this problem because I don't remember some basic math tricks. Been a while. I'd like to understand how this equation is derived. Thanks in advance for the help.
okr491 Posted December 11, 2012 Posted December 11, 2012 PV = nRT divide both sides by V P = nRT / V divide both sides by RT P / RT = n / V
Brandon Snider Posted December 11, 2012 Author Posted December 11, 2012 PV = nRT divide both sides by V P = nRT / V divide both sides by RT P / RT = n / V I'm just having a hard time because I thought that it was illegal to move RT in that way... I really need to take math again. So (P)(V) = (n)®(T) (P) = (n)RT / V = (P/1) = [(n/1)(RT/1)] / V So how is it possible to move the RT... Got it sorry. Just been a long time now. Dividing by RT is just like multiplying both sides by (1/RT) which is perfectly sound. Appreciate the help. It takes some thought.... really need to do more math though.
okr491 Posted December 11, 2012 Posted December 11, 2012 Got it sorry. Just been a long time now. Dividing by RT is just like multiplying both sides by (1/RT) which is perfectly sound. Yes, it's correct, although it would be illegal if the product RT was equal to zero, since you cannot divide by zero. But, since neither R (gas constant), nor T (temperature) is ever zero, you can divide both sides by RT.
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