Question 1 No Slip Frictionless A sphere is released from rest on a no-slip surface, as shown in the figure (the left side). After reaching its lowest point, the ball begins to rise again, this time on a frictionless surface as shown on the right side figure. When the ball reached its maximum height on the frictionless surface, it is O It is impossible to tell without knowing the radius and mass of the ball. O at a greater height than when it was released on the left side. O at the same height as when it was released on the left side O at a lesser height than when it was released on the left side. Question 2 The figure above shows a solid cylinder (on the left) and a cylindrical shell (on the right; the shell has spokes, but these have negligible mass). Both have the same mass and radius and turn on frictionless horizontal axles. A rope is wrapped around each cylinder and tied to a block. The blocks have the same mass and are held the same height above ground. Both blocks are released simultaneously. Which hits the ground first? O The block attached to the hollow cylinder. O The block attached to the solid cylinder. O Both blocks will hit the ground at the same time.The solid cylinder and the cylindrical hoop shown above have equal mass and radius [ignore the spokes on the hoop) A rope is wrapped around each cylinder and tied to a block. The blocks havethe same mass and are held the same height above the ground. Both blocks are released simultaneously. Which block has the smaller acceleration? '3 The).r both have the same acceleration. O The block attached to the solid cylinder 0 The block attached to the hoop. Question 4 The three objects shown in the figure above have masses given by - A: 240 g - e 290. g - c: 120 9. They are connected by rnassless, rigid rods. Find the moment of inertia about an axis that passes through mass B and is perpendicularto the page. 0 0.0631 kg m2 L.) 0 0360 kg m2 0 0.00650 kg m2 L13 0 00350 kg m2