3) A projectile of mass m 180 g moves to the right along a frictionless table with a speed v = 17.5 m/s as shown in the figure below. The projectile sticks to a rod of mass M = 5.50 kg and length d = 180 cm that rotates in a horizontal plane along the table surface. The impact point is at one end of the rod. (a) Calculate the angular momentum before and after the collision. (b) Find the angular velocity of the system after the collision. (c) Calculate the kinetic energy just before and just after the collision. %3D %3D top view fixe ax
3) A projectile of mass m 180 g moves to the right along a frictionless table with a speed v = 17.5 m/s as shown in the figure below. The projectile sticks to a rod of mass M = 5.50 kg and length d = 180 cm that rotates in a horizontal plane along the table surface. The impact point is at one end of the rod. (a) Calculate the angular momentum before and after the collision. (b) Find the angular velocity of the system after the collision. (c) Calculate the kinetic energy just before and just after the collision. %3D %3D top view fixe ax
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Transcribed Image Text:3) A projectile of mass m = 180 g moves to the right along a frictionless table
with a speed v= 17.5 m/s as shown in the figure below. The projectile sticks to
a rod of mass M = 5.50 kg and length d = 180 cm that rotates in a horizontal
plane along the table surface. The impact point is at one end of the rod. (a)
Calculate the angular momentum before and after the collision. (b) Find the
angular velocity of the system after the collision. (c) Calculate the kinetic energy
just before and just after the collision.
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