energy density distributión on in térms of frequency for blackbody radiation is described by the formula Planck derived, given as: p(v, T) = ®h ca exp(hu/kT)-1 Specify what each of the parameters or variables (i.e. {h, c, k, v, T}) are called in this equation. You may have to look this up, since we did not cover this in the lectures or book.

icon
Related questions
Question
The energy density distribution function in terms of frequency for blackbody radiation is described by the
formula Planck derived, given as: p(v,T) =
c3 exp(hu/kT)-1
Specify what each of the parameters or variables (i.e. {h, c, k, v,T}) are called in this equation.
You may have to look this up, since we did not cover this in the lectures or book.
What is the dimension of h?
Sketch what this distribution function looks like as a function of v. You can do this with information given.
Transcribed Image Text:The energy density distribution function in terms of frequency for blackbody radiation is described by the formula Planck derived, given as: p(v,T) = c3 exp(hu/kT)-1 Specify what each of the parameters or variables (i.e. {h, c, k, v,T}) are called in this equation. You may have to look this up, since we did not cover this in the lectures or book. What is the dimension of h? Sketch what this distribution function looks like as a function of v. You can do this with information given.
Expert Solution
Step 1

Given:

Energy density distribution function

ρ(ν,T)=8πhc3ν3exp(hν/kT)-1(1)

Explanation:

In the above equation (1)

h=Planck's constant

c=velocity of light in free space.

k=Boltzmann constant

ν=Frequency

T=Temperature.

 

steps

Step by step

Solved in 3 steps with 1 images

Blurred answer