Let's consider the sun to act like an ideal thermal radiator at a temperature of 6000 K.(a) At what wavelength does the sun emit its peak intensity? In what part of the electromagneticspectrum does this wavelength reside? Comment on how this wavelength compares with the peaksensitivity of the human eye. (You may need to look this up somewhere.)(b) Consider an interval of width d) = 2.0 nm centered on the wavelength you found in part (a). Whatis the intensity of the solar radiation emitted within this range? (Hint: You can use the approachof Example 3.6 on page 87 of our textbook.(c) What fraction of the total solar radiation does this represent?

Blackbody is an ideal concept which absorbs light across all the spectrum of light. It should emits…

Answered: Let's consider the sun to act like an…

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter24: Electromagnetic Waves

Section: Chapter Questions

Problem 48P

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Similar questions

Calculate the following for an eloctromagnetic wave with a wave length of /\=2.73 x 10^-4m: a) Frequency, f= b) Period, T= c) Electromagnetic band type ( Xray, Radio, Ect.)
In one portion of a synchrotron, electronstraveling at 2.99 * 108 m>s enter a region of uniform magnetic fieldwith a strength of 0.599 T. (a) What is the acceleration of an electron in this region? (Ignore the effects of relativity.) (b) The largestamount of light is emitted by the synchrotron at a frequency givenby ƒ = 10.04332 a Hz, where a is the acceleration in m>s2. What arethis frequency and its corresponding wavelength? In what portionof the electromagnetic spectrum do these waves belong?
Why go through the expense of building an electron microscope for studying very small objects such as organic molecules? Why not just use extremely short electromagnetic waves, which are much cheaper to generate?
Two infinitely long parallel plates of width w are located at w distance apart,. The two plates behave as black surfaces, where surface 1 has a temperature of 500°C and surface 2 has a temperature of 50°C. Determine the radiation heat flux between the two surfaces.
The Sun is approximately an ideal blackbody radiator with a surface temperature of 5800 K. (a) Find the wavelength at which its spectral radiancy is maximum and (b) identify the type of electromagnetic wave corresponding to that wavelength. (c) As we shall discuss in Chapter 44, the universe is approximately an ideal blackbody radiator with radiation emitted when atoms first formed.Today the spectral radiancy of that radiation peaks at a wavelength of 1.06 mm (in the microwave region).What is the corresponding temperature of the universe?
How can I find Ex and Ey from the given value of the yellow point?
What is the wavelength of maximum intensity (in nm) and the total energy emitted (in J/s/m2) by a celestial object at 9 K above absolute zero? wavelength of maximum intensity nm ?total energy J/s/m2?
Assuming the energy density of the cosmic background radiation of the Big Bang has the value 3.75 ✕ 10−14 J/m3, what is the corresponding electric field amplitude (in mV/m)?
Assuming the precision, PP, with which this electromagnetic radiation can shape the cornea is inversely proportional to wavelength (the shorter the wavelength, the higher the precision), how much more precise can this ultraviolet light be than the shortest wavelength of visible light, which is 380 nm? Give your answer in % more precise.
When you stand outdoors in the sunlight, why can you feel the energy that the sunlight carries, but not the momentum it carries? Under what conditions might wires in a circuit where the current flows in only one direction emit electromagnetic waves?
How much energy does a photon of UV light (frequency = 3.6 x 1016 Hz) have? How fast do the light travel in a vacuum, water (n=1.33), and glass (n=1.50)?
What is the density of free electrons in the ionospheric layer at a critical frequency of 1.3 MHz?

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