3. The formula for Hubble's Law using the velocity v is valid only for velocities much smaller than the speed of light (c). For velocities which are greater, the following formula is used where 1+v/e - 1. 1-v/c The largest redshift measured for a quasar (as of 1997) is z = 4.89 Solving the above equation for v, we can compute the recessional velocity for a quasar. - 1- Velocity= +z)² -1 (1+z) + 1 Velocity = km/sec. Calculate how far the quasar is in light years by knowing that distance = velocity/Ho. Make the appropriate units conversions. Distance = velocity/Ho=C Mpc) = light years %3D

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3. The formula for Hubble's Law using the velocity v is valid only for velocities much smaller
than the speed of light (c). For velocities which are greater, the following formula is used
where
1+v/e
- 1.
1-v/c
The largest redshift measured for a quasar (as of 1997) is z = 4.89 Solving the above
equation for v, we can compute the recessional velocity for a quasar.
- 1-
Velocity= +z)² -1
(1+z) + 1
Velocity =
km/sec.
Calculate how far the quasar is in light years by knowing that distance = velocity/Ho. Make the
appropriate units conversions.
Distance = velocity/Ho=C
Mpc) =
light years
%3D
Transcribed Image Text:3. The formula for Hubble's Law using the velocity v is valid only for velocities much smaller than the speed of light (c). For velocities which are greater, the following formula is used where 1+v/e - 1. 1-v/c The largest redshift measured for a quasar (as of 1997) is z = 4.89 Solving the above equation for v, we can compute the recessional velocity for a quasar. - 1- Velocity= +z)² -1 (1+z) + 1 Velocity = km/sec. Calculate how far the quasar is in light years by knowing that distance = velocity/Ho. Make the appropriate units conversions. Distance = velocity/Ho=C Mpc) = light years %3D
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