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Lab 3, KINS 382

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All of the above are derivatives of the same equation. Question 1 ... Stanford University's Logan Tom kills a volleyball with a change in velocity of 58m/s. ... – PowerPoint PPT presentation

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Title: Lab 3, KINS 382


1
Lab 3, KINS - 382
  • Linear Acceleration

2
Linear Acceleration
  • Acceleration is a change in motion state.
  • The symbol ais used to represent linear
    acceleration.
  • Acceleration is measured in m/s2.

3
The Equation
  • a V t
  • V a(t)
  • t V a
  • All of the above are derivatives of the same
    equation

4
Question 1
  • In her last sprint before retiring, sprinter Gail
    Devers moves at 4.34m/s at t 2sec and at t
    5sec she is moving at 9.12m/s.
  • What is her average acceleration between her 2nd
    second and her 5th second?

5
Answer 1
  • a Vf - Vo/tf - to Vf 9.12m/s, Vo
    4.34m/s, tf 5sec, to 2sec
  • (Step1) a 9.12m/s - 4.34m/s / 5sec - 2sec
  • (Step2) a 4.78m/s / 3s 1.59m/s2

6
Question 2
  • An object is observed to have a velocity of 13m/s
    at t 2sec and a velocity of 19m/s at t 8sec.
  • What is the average acceleration of the object?

7
Answer 2
  • a Vf - Vo / tf - to Vf 19m/s,
    Vo 13m/s, tf 8sec, to 2sec, a ?
  • (Step1) a 19m/s - 13m/s / 8sec - 2sec
  • (Step2) a 6m/s / 6s 1m/s2

8
Question 3
  • During the 100m dash Maurice Green has an average
    acceleration of 3.85m/s2 between 2sec and 6sec.
  • What was his velocity during this time, in mi/hr?

9
Answer 3
  • a(tf - to) V a 3.85m/s2, tf 6sec, to
    2sec, V ?
  • (Step1) V 3.85m/s2(6sec - 2sec)
  • (Step2) V 3.85m/s2(4sec)
  • (Step3) V 15.4m/s
  • (Step4) 15.4m/s X 1mph/.447m/s 34.45mph
  • This is probably not realistic!

10
Question 4
  • If the change in velocity of a racing dog is
    12.35 m/s, and the average acceleration is
    3.60m/s2.
  • Calculate the change in time in seconds.

11
Answer 4
  • V a t V 12.35m/s, a 3.60m/s2, t ?
  • (Step1) t 12.35m/s 3.60m/s2 3.43s
  • Note The m/s cancel out leaving one of the
    seconds from the value representing acceleration.

12
Question 5
  • During a race a sprinter increases his velocity
    from 11ft/s at t 2sec (elapsed time) to 31ft/s
    at t 7sec.
  • What was his average acceleration in m/s2?

13
Answer 5
  • Solve for a, Vf 31ft/s, Vo 11ft/s, tf 7sec,
    to 2sec, a ?
  • (Step1) Convert ft/s to m/s 31ft/s X .3048m/s /
    1ft/s 9.45m/s 11ft/s X .3048m/s / 1ft/s
    3.35m/s
  • (Step2) a 9.45m/s - 3.35m/s 7sec - 2sec
  • (Step3) a 6.10m/s 5sec 1.22m/s2

14
Question 6
  • A cheetah has an average acceleration of 11m/s2.
  • If the change in time is 2.6sec, find its change
    in velocity in mi/hr and m/s.

15
Answer 6
  • V a(t) a 11m/s2, t 2.6sec, V ?
  • (Step1) V 11m/s2(2.6sec) 28.6m/s
  • (Step2) 28.6m/s X 1mi/hr .447m/s 63.98mi/hr

16
Question 7
  • A discuss leaves the throwers hand with an
    initial velocity of 0m/s, and 5sec later, it has
    a velocity of 12.46m/s.
  • What is the average acceleration of the discuss?

17
Answer 7
  • Solve for a Vf 12.46m/s, Vo 0m/s, tf
    5sec, to 0sec
  • (Step1) a 12.46m/s - 0m/s 5sec - 0sec
    2.49m/s2

18
Question 8
  • Stanford Universitys Logan Tom kills a
    volleyball with a change in velocity of 58m/s.
  • The average acceleration is 290m/s2
  • Calculate the change in time and the velocity of
    the ball in mi/hr.

19
Answer 8
  • t V a V 58m/s, a 290m/s2,t ?
  • (Step1) t 58m/s 290m/s2 .20sec
  • (Step2) 58m/s X 1mi/hr .447m/s 129.75mi/hr

20
Have a nice day.
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