In a scene from a classic cartoon, a hungry coyote is chasing a roadrunner, as shown in the gure below. To aid in his quest, he has donned a pair of ACME brand rocketpropelled roller skates. The skates accelerate the coyote at 24.0 m/s2 in the horizontal direction. The roadrunner is moving at a constant speed toward a cliff. The coyote is initially at rest 40.0 m from the cliff at the instant the roadrunner moves past him. (In all questions below, assume right is the positive xdirection and up is the positive y-direction. Also assume you can apply realworld physics principles, as opposed to "cartoon physics.") fartv (a) What minimum constant speed (in m/s) must the roadrunner have to reach the cliff before the coyote does? m/s The roadrunner suddenly turns at the edge of the cliff, while the coyote continues straight ahead. The coyote's skates remain horizontal and continue to operate while he is in flight, so his acceleration while in the air is (24.0? 9.803) m/sz. (b) The cliff is 100 m above the flat floor of a wide canyon. How far (in m) from the base of the vertical cliff does the coyote land? m (c) What are the components of the coyote's velocity (in m/s) just before he hits the ground? (Indicate the direction with the signs of your answers.) vx = m/s v = m/s