Ask Question
7 March, 06:57

A juggler throws a bowling pin straight up with an initial speed of 7.70m/s. How much time elapses until the bowling pin returns to the juggler's hand?

+3
Answers (1)
  1. 7 March, 07:30
    0
    1.57 s

    Explanation:

    From Newton's equation of motion.

    v = u + gt ... Equation 1

    Where v = final velocity, u = initial velocity, g = acceleration due to gravity, t = time taken for the bowling pin to reach the maximum height.

    Given: v = 0 m/s (The pin is being thrown up), u = 7.7 m/s, g = - 9.81 m/s² (against air resistant)

    Substituting into equation 1

    0 = - 7.7 + (-9.81t)

    9.81t = 7.7

    t = 7.7/9.81

    t = 0.785 s.

    Note:Time taken for the pin to return to the juggler's hand is doubled the time taken to reach the maximum height

    T = 2t

    T = 2 (0.785)

    T = 1.57 s.

    Hence the time taken for the pin to returns to the juggler's hand = 1.57 s
Know the Answer?
Not Sure About the Answer?
Find an answer to your question ✅ “A juggler throws a bowling pin straight up with an initial speed of 7.70m/s. How much time elapses until the bowling pin returns to the ...” in 📘 Physics if you're in doubt about the correctness of the answers or there's no answer, then try to use the smart search and find answers to the similar questions.
Search for Other Answers