3. Using your value of b and the Wien's Displacement equation, predict the surface temperature of a neutron star whose peak wavelength is observed in the x-ray region of A pouk = 0.001 µm.

Question 3 please

Transcribed Image Text:

1. Plot ipeak Vs 1/T using the scatter plot as you did in the previous experiment. Make a linear fit of the data (add a linear trendline) by selecting the intercept at zero. Display an equation of this fit on the chart. What value of “b" do you get? (Attach your plot to this lab report). b = um-K 2. Calculate the discrepancy error, |b - 2898|/ 2898 × 100% and comment about your finding. Does it agree with the theoretical value? 3. Using your value of b and the Wien's Displacement equation, predict the surface temperature of a neutron star whose peak wavelength is observed in the x-ray region of A peak = 0.001 µm. T = K 4. The normal human body temperature is T= 310 K. At what wavelength would humans emit the blackbody radiation? What region of the electromagnetic spectrum does it correspond to? hum um. 5. Can you now explain why blue stars hotter than the red stars?

Transcribed Image Text:

T (K) 1/T (K*l) ipeak (um) 500 203 103 1000 5.796 1500 2.898 6.66-04 s-04 3.33-04 2.504 2000 1.932 3000 1.449 4000 0.966 6000 0.724 10,000 1.66-04 0.483 104 0.290