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Transcript 
Questions on Black Body radiation and Wien’s Law.
1. Given the wavelength of maximum intensity observed in the spectrum of each of the
stars below , calculate their surface temperature.
λmax /nm
star
surface temperature/K
Zeta Ophiuchi
87
Rigel
255
Altair
385
Procyon A
426
The Sun
508
Epsilon Indi
630
Proxima Centauri
840
2. “A black body is not always black!” How can this oxymoron be true?
3. The graph below shows the relationship between surface temperature and lambda max
for black bodies
0.6
m
max
0.4
0.2
0
0
.
5000
10 000
15 000
20 000
Temperature / K
a) Mark the position of the Sun on this graph.
b) Show by calculating λmax at 10 000K and 15 000 K that Wien’s Law is true in
these cases.
4. The cosmic background radiation has a temperature of 3 K.
a) What is the associated λmax value.
b) What class of electromagnetic radiation is this?
5. Sketch the blackbody curve at three different stellar temperatures.
Be careful to sketch accurately what happens to the shape of the curve and the peak
wavelength in each case.
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