Answer:
Explanation:
Force is mass multiplied by acceleration. This is (in one dimension):
[tex]F = m a[/tex]
Now, we can see what acceleration will every rock feel:
Lets call [tex]F_1[/tex] the force over the first rock, that has a mass [tex]m_1[/tex], and lets call [tex]F_2[/tex] the force over the second rock, that has a mass [tex]m_2[/tex]. We can write the following equations:
[tex]F_1 = m_1 * a_1[/tex]
and
[tex]F_2 = m_2 * a_2[/tex].
We also know that:
[tex]F_2 = 6* F_1[/tex], so:
[tex]6 * F_1 = m_2 * a_2[/tex].
But the mass is also six times greater.
[tex]m_2 = 6* m_1[/tex]
so...
[tex]6 * F_1 = 6 * m_1 * a_2[/tex].
Now, lets obtain the acceleration. For the first rock we got:
[tex]a_1 = \frac{F_1}{m_1}[/tex]
and for the second rock
[tex]a_2 = \frac{6 * F_1}{ 6 * m_1}[/tex]
[tex]a_2 = \frac{ F_1}{ m_1}[/tex]
But this is the same acceleration that the first rock has! So, the kinematics will be the same.
