The fraction of particles that have an x-component velocity betweenC and Cx + dCx is described by (7)¹/²e-mc3/2kTe-mc/2kT dCx. Derivethe average value of the positive values of Cx.

Answered: The fraction of particles that have an…

The fraction of particles that have an x-component velocity between e-mc/2kT dCx. Derive 1/2 C₂ and Cx + dC, is described by (m)¹/² Cx the average value of the positive values of Cx.

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Question

The fraction of particles that have an x-component velocity between
C and Cx + dCx is described by (7)¹/²e-mc3/2kT
e-mc/2kT dCx. Derive
the average value of the positive values of Cx.

Expert Solution

Step 1: To find

We have to find average value of C_x

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Given: Nc = (2.51x1019)(mn/mo)3/2 (T/300)3/2 Nv = (2.51x1019)(mp/mo)3/2 (T/300)3/2 and ni = (NcNv)1/2 e(-Eg/2kT) show that: ni = (2.51x1019) ((mn/mo) * (mp/mo) )3/2 e(-Eg/2kT)