Suppose that a galaxy's 21-cm line of atomic hydrogen is shifted to 22.8 cm. a. What...
Suppose that a galaxy's 21-cm line of atomic hydrogen is shifted to 22.8 cm. a. What is the redshift of the galaxy? z = b. What is its recession velocity? km/s
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Suppose that a galaxy's 21-cm line of atomic hydrogen is shifted
to 22.8 cm. a. What...
You obtain spectra for two galaxies and measure the observed wavelength of a hydrogen emission line...
You obtain spectra for two galaxies and measure the observed wavelength of a hydrogen emission line that has a rest wavelength of 656.3 nm. Here are your results: Galaxy 1: Observed wavelength of hydrogen line is 672.9 nm Galaxy 2: Observed wavelength of hydrogen line is 692.6 nm (a) Calculate the redshift, z, for each of the two galaxies. (b) What is each one’s recessional velocity (in km/s)? (c) Which of these galaxies is farther away from you? (d) How...
Suppose that you have obtained spectra of several galaxies and have measured the observed wavelength of the H-alpha line (rest wavelength = 656.3nm) to be: Galaxy 1: 659.4 nm. Galaxy 2: 664.1 nm. Gala...
Suppose that you have obtained spectra of several galaxies and have measured the observed wavelength of the H-alpha line (rest wavelength = 656.3nm) to be: Galaxy 1: 659.4 nm. Galaxy 2: 664.1 nm. Galaxy 3: 675.7 nm. 10. [4pt] Calculate the redshift, z, for each of these galaxies. 11. [4pt] Calculate the radial velocity of each of these galaxies. 12. [4pt] Assuming a Hubble Constant of 66.4 km/s/Mpc, calculate the distance to each of these galaxies (answer in Mpc).
3. The observed recession velocity of a galaxy is the sum of its Hubble flow velocity,...
3. The observed recession velocity of a galaxy is the sum of its Hubble flow velocity, UH = Hod, and the line-of-sight (LOS) component of its peculiar velocity, vp, due to local gravitational effects. a) Suppose we measure Ho by measuring the distance and redshift for a single galaxy velocity of the galaxy?10 b) At what distance can we measure Ho to 5%? Assume the true value of Ho is 74 kin s-"Mpc-1 and a typical LOS peculiar velocity is...
The observed recession velocity of a galaxy is the sum of its Hubble flow velocity, vH...
The observed recession velocity of a galaxy is the sum of its Hubble flow velocity, vH = H0d, and the line-of-sight (LOS) component of its peculiar velocity, vp, due to local gravitational effects. a) Suppose we measure H0 by measuring the distance and redshift for a single galaxy. Write an expression for how the error in our measurement depends on the peculiar velocity of the galaxy? b) At what distance can we measure H0 to 5%? Assume the true value...
(a) At what wavelength will we observe a spectral line emitted at 500 nm by a...
(a) At what wavelength will we observe a spectral line emitted at 500 nm by a star (b) At what wavelength will we observe the Ca II line (with rest wavelength 397.0 (c) A cloud of neutral hydrogen (HI) emits the so-called "21-cm line" (actually moving toward us at 100 km/s? nm) emitted by a galaxy receding at 60,000 km/s? 21.11 cm, at rest frequency 1420.2 MHz) while moving away at 200 km/s. At what frequency will we observe this...
The rich galaxy cluster Abell 1689 has a redshift z = 0.1832. It contains a large...
The rich galaxy cluster Abell 1689 has a redshift z = 0.1832. It contains a large amount of hot gas at a temperature T ≃ 108 K. We observe an emission line due to the n = 2 → 1 transition of Fe XXVI (that is, iron which has lost all but one of its Z = 26 electrons). For a hydrogen-like ion with nuclear charge Z, the energy levels of hydrogen are all multiplied by a factor of Z2....
Assume a typical galaxy in the Coma cluster moves at a speed approximately equal to the...
Assume a typical galaxy in the Coma cluster moves at a speed approximately equal to the cluster’s velocity dispersion, 977 km s−1 , and the diameter of the Coma cluster is 6 Mpc. a) [5 pts] Estimate how long a galaxy in the Coma cluster would take to travel from one side to the other. b) [2 pts] How does this compare to the present-day Hubble time, tH? c) [3 pts] If there are 1000 galaxies in the Coma cluster,...
9/ the 2011 Nobel Prize in Physics was awarded to 3 men who study white dwarf...
9/ the 2011 Nobel Prize in Physics was awarded to 3 men who study white dwarf supernova explosions, which are known as Type la supernovae. The following problem is designed to give you a feel for what they did, and the sorts of apparent brightnesses and distances they were working with. A typical Type la supernova explosion has a luminosity of 1.72 x 10^36 W. If we observe such a supernova to have an apparent brightness of 1.25 x 10^-17...
Name: Christina Gonzalez PARTI - Hydrogen, energy levels, and atomic line spectra Lab Worksheet - Atomic...
Name: Christina Gonzalez PARTI - Hydrogen, energy levels, and atomic line spectra Lab Worksheet - Atomic Theory 1.a) Electrons in an atom are more stable than free electrons. This is why the energy levels of electrons in atoms are negative (free electrons are defined as having an energy of zero). Calculate the energy of a hydrogen electron in the 4th shell, in J. b) Calculate this energy in kJ/mole. 2. Calculate the energy for n=1, 2, 3, and 5 as...
Can u explain the reason 41. Which one of the following statements concerning 21-cm radiation is...
Can u explain the reason
41. Which one of the following statements concerning 21-cm radiation is false A. It passes freely through the dusk of the Galaxy B. It is composed of very energetic photons C. it is produced when a hydrogen atom's electron changes its spin D. It is seen at radio wavelengths
3. The observed recession velocity of a galaxy is the sum of its Hubble flow velocity, UH = Hod, and the line-of-sight (LOS) component of its peculiar velocity, vp, due to local gravitational effects. a) Suppose we measure Ho by measuring the distance and redshift for a single galaxy velocity of the galaxy?10 b) At what distance can we measure Ho to 5%? Assume the true value of Ho is 74 kin s-"Mpc-1 and a typical LOS peculiar velocity is...
(a) At what wavelength will we observe a spectral line emitted at 500 nm by a star (b) At what wavelength will we observe the Ca II line (with rest wavelength 397.0 (c) A cloud of neutral hydrogen (HI) emits the so-called "21-cm line" (actually moving toward us at 100 km/s? nm) emitted by a galaxy receding at 60,000 km/s? 21.11 cm, at rest frequency 1420.2 MHz) while moving away at 200 km/s. At what frequency will we observe this...
Name: Christina Gonzalez PARTI - Hydrogen, energy levels, and atomic line spectra Lab Worksheet - Atomic Theory 1.a) Electrons in an atom are more stable than free electrons. This is why the energy levels of electrons in atoms are negative (free electrons are defined as having an energy of zero). Calculate the energy of a hydrogen electron in the 4th shell, in J. b) Calculate this energy in kJ/mole. 2. Calculate the energy for n=1, 2, 3, and 5 as...
Can u explain the reason
41. Which one of the following statements concerning 21-cm radiation is false A. It passes freely through the dusk of the Galaxy B. It is composed of very energetic photons C. it is produced when a hydrogen atom's electron changes its spin D. It is seen at radio wavelengths
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