Answer:
Explanation:
Using the following law
Laws of Motion,
Law of Universal Gravitation, Conservation of Momentum and Energy.
The gravitation potential should be equal to the kinetic energy gain by the two bodies
Given that
The bodies have equal mass i.e M1=M2=m
Let the distance between the two masses be "d".
The gravitational potential energy is given as
P.E = force of attraction between the two bodies × distance travel.
P.E= GM1M2/r² × d
Then, M1=M2=m,, r=d
P.E=Gm²/d² × d
P.E=Gm²/d
Now the kinetic energy of the two masses
We know that K.E is given as
KE= ½MV²
So, K.E of the bodies is
K.E= ½M1•V1²+ ½M2•V2²
Also conservation of momentum
M1V1=M2V2
Since M1=M2=m
mV1=mV2
Then, divide through by m
Then, V1=V2
So the two bodies are moving with the same velocity
Then, we can say V1=V2=v
So back to our kinetic energy
K.E= ½M1•V1²+ ½M2•V2²
K.E=½mv²+½mv²
K.E=mv²
Using conversation of energy
So the P.E is equal to K.E
P.E= K.E
Gm²/d=mv²
Divide both side by m
Gm/d=v²
Take square root of both sides
v=√(Gm/d)
So, the velocity of the two bodies is a function of G, m and d
