PV=nRT is probably more appropriate to Thermodynamics. While e=mc^2 is certainly related, we will not get there. You'll see it in 12th grade modern physics/calculus.
so PV=nRT is the ideal gas law? P is pressure, V is volume, n is the moles of the gas, R is a constant and is equals 8.314 J/K(mol), and T is temperature measured in Kelvin.
isaac trying to sound smart, but really taking an explanation of the second link that his google search of PV=nRT gave him and adding a little personal "flair" to the end.
PV=nRT is probably more appropriate to Thermodynamics. While e=mc^2 is certainly related, we will not get there. You'll see it in 12th grade modern physics/calculus.
ReplyDeleteso PV=nRT is the ideal gas law? P is pressure, V is volume, n is the moles of the gas, R is a constant and is equals 8.314 J/K(mol), and T is temperature measured in Kelvin.
ReplyDeleteis that all correct and am i missing something?
isaac trying to sound smart, but really taking an explanation of the second link that his google search of PV=nRT gave him and adding a little personal "flair" to the end.
ReplyDeletethis was not needed, but i am extremely bored
dude... it was actually the first...
ReplyDeletehaha. well i tend to find the second can be more accurate so i guess i went down swinging <---- baseball reference
ReplyDeleteyes, and my comment is the only one with asterisk by it
ReplyDeletealso a baseball reference
ReplyDelete