Question

http://prntscr.com/cml3a4 Can someone show me the steps on how to solve these

Answer 1

idk ask google

Answer 2

my computer won't allow me to see the question

Answer 3

r i p

Answer 4

Theres a chart so idk how to post it here without it messing up

Answer 5

save the image and do attach file

Answer 6

shes gone anyway .-.

Answer 7

lol

Answer 8

@sweetburger

Answer 9

Notice that once you drop your object from some height the only force acting on that object is the gravitational force. Write out the Newtons universal force of gravity. Write the left side "F" over newtons definition of force as mass times acceleration.
Notice that one of the masses on the right will reduce with the mass on the left. You are left with a formula to calculate the acceleration.
$$F = F_g\\
F = G\frac{mM}{r^2}\\
ma = G\frac{mM}{r^2}\\
a = G\frac{M}{r^2}$$
the big G (sometimes marked with a capital gamma) is the universal gravitational constant. Do the math, average the results, compare them.