Answer:
a) 147.95 Mpc
Explanation:
Using Hubble's formula
[tex]v = H_od[/tex]
where;
v = radical velocity
[tex]H_o[/tex] = Hubble's constant
d = distance
Given that:
The average radial velocity of galaxies in the Hercules cluster v = 10,800 km/s
Also using [tex]H_o[/tex] = 73 km/s/ Mpc ; we make distance d the subject of the formula:
Then distance d can be written as:
[tex]d = \frac{v}{H_o}[/tex]
[tex]d = \frac{10,800 \ km/s}{73 \ km/s/Mpc}[/tex]
d = 147.95 Mpc
b)
Now, if the Hubble constant had a smaller value, then for a given velocity the distance to the galaxy will increase because distance d is inversely proportional to [tex]H_o[/tex]
i.e
d ∝ [tex]\frac{1}{H_0}[/tex]
