At a carnival, you can try to ring a bell by striking a target with a 10.4-kg hammer. In response, a 0.351-kg metal piece is sent upward toward the bell, which is 3.78 m above. Suppose that 32.2 percent of the hammer's kinetic energy is used to do the work of sending the metal piece upward. How fast must the hammer be moving when it strikes the target so that the bell just barely rings?
At a carnival, you can try to ring a bell by striking a target with a...
At a carnival, you can try to ring a bell by striking a target with a 7.14-kg hammer. In response, a 0.381-kg metal piece is sent upward toward the bell, which is 4.27 m above. Suppose that 23.5 percent of the hammer's kinetic energy is used to do the work of sending the metal piece upward. How fast must the hammer be moving when it strikes the target so that the bell just barely rings?
At a carnival, you can try to ring a bell by striking a target with a 8.13-kg hammer. In response, a 0.358-kg metal piece is sent upward toward the bell, which is 4.01 m above. Suppose that 17.0 percent of the hammer's kinetic energy is used to do the work of sending the metal piece upward. How fast must the hammer be moving when it strikes the target so that the bell just barely rings?
At a carnival, you can try to ring a bell by striking a target with a 10.6-kg hammer. In response, a 0.402-kg metal piece is sent upward toward the bell, which is 4.23 m above. Suppose that 18.5 percent of the hammer's kinetic energy is used to do the work of sending the metal piece upward. How fast must the hammer be moving when it strikes the target so that the bell just barely rings?
At a carnival, you can try to ring a bell by striking a target with a 9.77-kg hammer. In response, a 0.446-kg metal piece is sent upward toward the bell, which is 3.87 m above. Suppose that 16.9 percent of the hammer's kinetic energy is used to do the work of sending the metal piece upward. How fast must the hammer be moving when it strikes the target so that the bell just barely rings? Number and units please