Integrating Maxwell-Boltzmann speed distribution

AI Thread Summary
The discussion focuses on integrating the Maxwell-Boltzmann speed distribution to find the root mean square speed (vrms). Participants clarify the integration process, emphasizing the need to simplify the integral by moving constants and making a substitution. The correct substitution involves setting x equal to v multiplied by the square root of m/(kT), with a note that the factor of 2 may have been overlooked. After addressing the substitution and adjusting for the differential, the final expression for vrms is discussed, leading to a resolution of the problem. The conversation highlights the importance of careful variable substitution in solving integrals related to statistical mechanics.
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Homework Statement



Let P(v) represent the Maxwell-Boltzmann speed distribution. Basically what it comes down to is that I have to find the definite integral (0,inf) of P(v)*v^2 and get vrms from this.

Homework Equations



We are given the definite integral from 0 to inf for the function (x^4)*exp(-x^2), which is (3/8)*Sqrt(Pi).

The Attempt at a Solution



I first move all the constants in front of the integral and then the integral simplifies to (v^4)*exp(-mv^2/kT). However, I have no idea what to do with the constants stuck in the exponent. How would I continue from here?

Thank you beforehand.
 
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You have to make a substitution. Set:
x=v*sqrt(m/(kT)). (Except I think it's really x=v*sqrt(m/(2kT)) and you forgot the 2. E= 1/2 mv^2).
 
Thanks, that seems to be a working solution! Do you know what the answer should be? 3kT/m? For some reason I get Sqrt(9kT/2m).

EDIT: Forgot to replace dv with the corresponding operator for x, dx*[(m/2kT)^(-1/2)]. Got it now!
 
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