Respuesta :
Answer:
the center of mass is 316,670m bellow the release point.
Explanation:
First, we must find the distance at which the objects are in time t = 360s
We will use the formula for vertical distance in free fall
[tex]h=v_{0}t+\frac{1}{2} gt^2[/tex]
[tex]v_{0}[/tex] is the initial velocity, is 0 for both stones since they were just dropped.
g is acceleration of gravity and t is time ([tex]g=9.81m/s^2[/tex])
At [tex]t=360s[/tex] the first stone has been falling for the entire 360 seconds, its position h1 is:
[tex]h_{1}=\frac{1}{2} (9.82m/s^2)(360s^2)=635,688m[/tex]
And at 360 seconds the second stone has been fallin for[tex]t= 360s -181 s = 179s[/tex], so its position h2 is:
[tex]h_{2}=\frac{1}{2} (9.81m/s^2)(179)^2=157,161.1m[/tex]
And finally using the equation for the center of mass:
[tex]CM=\frac{m_{1}h_{1}+m_{2}h_{2}}{m_{1}+m_{2}}[/tex]
We know that the mass of the second stone is twice the mass of the first stone so:
[tex]m_{1}=m\\m_{2}=2m[/tex]
replacing these values in the equation for the center of mass
[tex]CM=\frac{mh_{1}+2mh_{2}}{m+2m}[/tex]
[tex]CM=\frac{m(h_{1}+2h_{2})}{3m}=\frac{h_{1}+2h_{2}}{3}[/tex]
Finally, replacing the values we found fot h1 and h2:
[tex]CM=\frac{635,688m+2(157,161.1m)}{3}=316,670m[/tex]
the center of mass is 316,670m bellow the release point.
