Answer to Question #281396 in Mechanics | Relativity for Percy

Question #281396

A target in a shooting board consists of a vertical square wooden board, 0.250 m on a side and with a mass 0.750 g and pivots around a horizontal axis along its top edge. The board is stuck face-on at its center by a bullet of mass 1.90 g, travelling at 360 m/s that remains embedded in the board.

(a) (2 marks) What is the angular speed of the board just after the bullet’s impact?

(b) (2 marks) What maximum height does the center of the board reach from the equilibrium before it starts swinging down again?

Expert's answer

Given quantities:

"M = 1.9 *10^{-3}kg" m = "0.75 *10^{-3}kg" "L = 0.25m" "v = 360\\frac{m}{s}"

Using Conservation of angular momentum we have:

"L_1=L_2"

"L_1=mvrsin\\phi=mv\\frac{L}{2}"

"L_2=lw"

"I = I_{board} + I_{bullet}"

"l = \\frac{1}{3}ML^2+m(\\frac{L}{2})^2"

"w = \\large\\frac{mv}{\\frac{3}{2}ML+\\frac{1}{2}mL}=\\frac{0.75*10^{-3}*360}{\\frac{3}{2}*1.9*10^{-3}*0.25+\\frac{1}{2}*0.75*10^{-3}*0.25}" "=315.32"

Using conservation of energy we have:

"\\frac{1}{2}Iw^2=(m+M)gh \\to h = \\frac{Iw^2}{(m+M)g}"