Ask a New Question
Menu

A 69 kg swimmer free-falls

  1. A 69 kg swimmer free-falls off a 10.0 m diving platform. The diver comes to a stop 2.7 m below the water's surface. What is the
    1. answers icon 0 answers
    2. Becca asked by Becca
    3. views icon 578 views
  2. A 69 kg swimmer free-falls off a 10.0 m diving platform. The diver comes to a stop 2.7 m below the water's surface. What is the
    1. answers icon 1 answer
    2. Becca asked by Becca
    3. views icon 578 views
  3. If instead, the swimmer makes 30.5 laps in the same pool in 3 h, determine the total distance the swimmer traveled, the
    1. answers icon 1 answer
    2. lauren asked by lauren
    3. views icon 661 views
  4. If instead, the swimmer makes 93.5 laps in the same pool in 4 h, determine the total distance the swimmer traveled, the
    1. answers icon 1 answer
    2. Anonymous asked by Anonymous
    3. views icon 619 views
  5. If instead, the swimmer makes 77.5 laps in the same pool in 1.5 h, determine the total distance the swimmer traveled, the
    1. answers icon 6 answers
    2. Dave asked by Dave
    3. views icon 729 views
  6. If instead, the swimmer makes 30.5 laps in the same pool in 3 h, determine the total distance the swimmer traveled, the
    1. answers icon 1 answer
    2. lauren asked by lauren
    3. views icon 634 views
  7. If instead, the swimmer makes 30.5 laps in the same pool in 3 h, determine the total distance the swimmer traveled, the
    1. answers icon 1 answer
    2. lauren asked by lauren
    3. views icon 540 views
  8. During the butterfly stroke, what is the purpose of the "push" movement?to propel the swimmer forward to lift the swimmer out of
    1. answers icon 1 answer
    2. views icon 42 views
  9. A swimmer’s dive is modeled in the graph, in which x is the distance from the pool’s front wall and y is the swimmer’s
    1. answers icon 1 answer
    2. . asked by .
    3. views icon 203 views
  10. A swimmer tries to go straight across a river that is 500m wide. The swimmer can swim at 1.5m/s. There is a current of .05m/s
    1. answers icon 4 answers
    2. Sally asked by Sally
    3. views icon 683 views