QUESTION 8 A projectile of m- 76.0-g traveling at 342- m/s hits a hanging mass Mand imbeds into it. Both were observed to have a velocity of 16,0 m/s. Mass M is attached by a cord length 1.46-m to a fixed point on eylindrical wood placed horizontally and has a diameter of 12.40-cm. Calculate (approximate) a) the mass M, b) the tension along the farthest to the right, c) the velocity at which the two mases pass the top of the rotational are during the first pass, d) how many times the rope can wrap around the wood disregarding all digits after the decimal point if less than 0,500 and the unit will be rot. (assume the rope is very thin)? Hint: As the cord wraps around the wood, its effective length reduces.

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QUESTION 8 A projectile of m = 76.0-g traveling at 342- m/s hits a hanging mass M and imbeds into it. Both were observed to have a velocity of 16,0 m/s. Mass M is attached by a cord length 1.46-m to a fixed point on cylindrical wood placed horizontally and has a diameter of 12.40-cm. Calculate (approximate) a) the mass M, b) the tension along the farthest to the right, c) the velocity at which the two mases pass the top of the rotational are during the first pass, d) how many times the rope can wrap around the wood disregarding all digits after the decimal point if less than 0.500 and the unit will be rot. (assume the rope is very thin)? Hint: As the cord wraps around the wood, its effective length reduces. a) b) d)