We can use Wien's Law to determine the wavelength of maximum intensity in nanometers for the molecular cloud. 2.90 x 106 Amc Amc Amc = II AHI AHI HI K nm μm We can use Wien's Law again to determine the wavelength of maximum intensity in nanometers for the HI cloud. 2.90 x 106 K nm um

icon
Related questions
icon
Concept explainers
Question
Tutorial
A molecular cloud has a temperature of 46 K and an HI cloud has a temperature of 135 K. What are their wavelengths of maximum intensity?
What frequency do these correspond to?
In what region of the electromagnetic spectrum can the radiation from these clouds be found?
Part 1 of 3
We can use Wien's Law to determine the wavelength of maximum intensity in nanometers for the molecular cloud.
2.90 x 106
Amc
Amc
Amc
XHI
^HI
=
AHI
=
We can use Wien's Law again to determine the wavelength of maximum intensity in nanometers for the HI cloud.
2.90 x 106
II
=
K
nm
=
μm
K
nm
um
Transcribed Image Text:Tutorial A molecular cloud has a temperature of 46 K and an HI cloud has a temperature of 135 K. What are their wavelengths of maximum intensity? What frequency do these correspond to? In what region of the electromagnetic spectrum can the radiation from these clouds be found? Part 1 of 3 We can use Wien's Law to determine the wavelength of maximum intensity in nanometers for the molecular cloud. 2.90 x 106 Amc Amc Amc XHI ^HI = AHI = We can use Wien's Law again to determine the wavelength of maximum intensity in nanometers for the HI cloud. 2.90 x 106 II = K nm = μm K nm um
Expert Solution
steps

Step by step

Solved in 2 steps with 2 images

Blurred answer
Knowledge Booster
Stellar evolution
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.