What Are the Escape Velocities for Callisto and a Neutron Star?

AI Thread Summary
The escape velocity for Callisto, calculated using the formula v=sqrt(2GM/r), is approximately 2438.73 m/s. For a neutron star with twice the mass of the sun and a radius of 6 km, the escape velocity is about 297,403,171.9 m/s. The calculations confirm the use of the correct equations and parameters. Additionally, it is noted that the neutron star's characteristics make it very close to being a black hole. These findings highlight the significant differences in escape velocities between celestial bodies.
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Determine the escape speed from (a) Jupiter’s moon Callisto with a mass of 1.07 × 10^23 kg and radius 2.4 Mm and (b) a neutron star twice the mass of the sun and a radius of 6 km.

I want to make sure I'm doing this and have the correct equations..

For part a)
Okay, so escape speed is found using the equation
v=sqrt(2GM/r)
G=6.67 x 10^-11
M=1.07 × 10^23
r=2.4 x 10^6

v=sqrt(1.427 x 10^13/2.4 x 10^6)
v=srt(5947416.667)
v=2438.73 m/s

For part b)
v=sqrt(2GM/r)
G=6.67 x 10^-11
M=2(1.9891 ×10^30) = 3.9782 x 10^30
r=6000

v=sqrt(5.301 x 10^20/6000)
v=sqrt(8.845 x 10^16)
v=297403171.9 m/s
 
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Yep, you have the right formulae, and the right answers too.

and incase it is mentioned, your neutron star is VERY nearly a black hole too.
 

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