Problem 2. The redshift is defined to be the quantity Job — Xem Xem where Aob and Aem are respectively the wavelengths at which radiation is observed and emitted. 1. Find the corresponding definition in terms of observed and emitted frequencies fob and fem. 2. The observed frequency of radio waves from a distant galaxy is 5 GHz. At the location of galaxy, the frequency is 6 GHz. Calculate the redshift of the galaxy. 3. If the galaxy was 500 Mpc away from the Milky way when the radio waves were emitted. How far away is this galaxy today?
Problem 2. The redshift is defined to be the quantity Job — Xem Xem where Aob and Aem are respectively the wavelengths at which radiation is observed and emitted. 1. Find the corresponding definition in terms of observed and emitted frequencies fob and fem. 2. The observed frequency of radio waves from a distant galaxy is 5 GHz. At the location of galaxy, the frequency is 6 GHz. Calculate the redshift of the galaxy. 3. If the galaxy was 500 Mpc away from the Milky way when the radio waves were emitted. How far away is this galaxy today?
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Transcribed Image Text:Problem 2. The redshift is defined to be the quantity
Job – Xem
Xem
where Aob and Aem are respectively the wavelengths at which radiation is observed and emitted.
1. Find the corresponding definition in terms of observed and emitted frequencies fob and fem.
2. The observed frequency of radio waves from a distant galaxy is 5 GHz. At the location of galaxy, the
frequency is 6 GHz. Calculate the redshift of the galaxy.
3. If the galaxy was 500 Mpc away from the Milky way when the radio waves were emitted. How far away
is this galaxy today?
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