Thermodynamics problem: What is the entropy of Cosmic Microwave Background CMB today in the visible Universe?

Just as the Universe has a cosmic microwave background dating back to the time when the...

Just as the Universe has a cosmic microwave background dating back to the time when the Universe was opaque to photons, it has a cosmic neutrino background dating back to the earlier time when the Universe was opaque to neutrinos. The calculated number density of cosmic neutrinos is nν = 3.36 × 108 m-3. (a) How many cosmic neutrinos are inside (and streaming through) the Earth at any given moment? (b) What average neutrino mass, mν, would be required to...

In the Big Bang model with an initial singularity, distant regions of the universe that we...

In the Big Bang model with an initial singularity, distant regions of the universe that we observe today with the cosmic microwave background radiation were never in communication with each other in the past. How is it that the temperature of the CMB is so uniform?

1. Cosmic Inventory. What are the three largest contributors to the density of the universe today?...

1. Cosmic Inventory. What are the three largest contributors to the density of the universe today? What fraction of the cosmos today is made of material that has been studied in a laboratory? Briefly comment on this result.

The Universe was once (up to when it was about 400,000 years old) filled with a...

The Universe was once (up to when it was about 400,000 years old) filled with a hot, dense, opaque, ionized gas. When the gas "recombined" at 400,000 years, when it was about 3000 K, it became transparent. We see this today as an opaque spherical wall of gas surrounding us in all directions, with a redshift of around a factor 1000. If the peak of the Planck spectrum of this gas was at 1 micron (0.000001 meters) when it was...

Thermodynamics and Statistical Mechanics problem: At the surface of the sun, what fraction of the energy...

Thermodynamics and Statistical Mechanics problem: At the surface of the sun, what fraction of the energy is in the visible part of the spectrum? You will need to perform an integral numerically; it will be easier if you use dimensionless variables.

Use the second law of thermodynamics to explain briefly what happens, in terms of the entropy...

Use the second law of thermodynamics to explain briefly what happens, in terms of the entropy of the stable phase, when the temperature of ice is raised from -10 °C to 10 °C.

What were the matter density and the equivalent mass density of the cosmic radiation field when...

What were the matter density and the equivalent mass density of the cosmic radiation field when the universe was one-thousandth of its present size? assume critical density, and don't forget the cosmological redshift. Chapter 17. problem 8p

How do we know the temperature of the microwave background radiation, i.e. what did we measure?...

How do we know the temperature of the microwave background radiation, i.e. what did we measure? Will the temperature go up or down or not change in the coming billion years.

Expansion of the universe Q: What is the Cosmological Principle? Why is it not an exact...

Expansion of the universe Q: What is the Cosmological Principle? Why is it not an exact statement? In what sense could it be true (on large scales a good approximation)? Q: What is Hubble’s Law? What does it say in simple terms? What is the pattern of galaxy motions relative to us? What are possible interpretations of this motion? Q: What is the cosmic scale factor? What does it measure? What is its value today? in the past? the future?

Suppose that star formation stops today, everywhere in the universe. a. At what time t_die will...

Suppose that star formation stops today, everywhere in the universe. a. At what time t_die will the last stars die out? b. What will be the scale factor a(t_die) at that time?