Answer:
2.8m
Explanation:
Convert to metric:
500g = 0.5 kg
15g = 0.015 kg
Assuming elastics collision, we could use the law of momentum conservation to calculate the speed of black and projectile post-collision V:
mv = (M + m)V
[tex]V = \frac{mv}{m+M} = \frac{0.015*255}{0.5 + 0.015} = 7.43 m/s[/tex]
This would make the system moves up, which convert its kinetic energy to potential energy. By the law of energy conservation when the mass reaches its highest point (aka speed = 0)
[tex]E_k = E_p[/tex]
[tex]0.5(M+m)V^2 = (M+m)gh[/tex]
[tex]h = \frac{V^2}{2g} = \frac{7.43^2}{2*9.81} = 2.8m[/tex]
