A body oscillates with simple harmonic motion according to the equation = (4/ 2 ) cos[8.38(/) + 1.92 ] Solve to find, a) The displacement b) The velocity c) The acceleration at t = 1.90 sec d) The frequency e) The period of the motion
Answers
Answer:
a) 3.267 m
(b) 43.36 m/s
(c) - 229.47 m/s^2
Explanation:
x = 6.12 Cos[8.38t + 1.92]
Compare with the standard equation
x = A Cos (ωt + Ф)
ω = 8.38 rad/s
Ф = 1.92 rad
(A) at t = 1.90 s
x = 6.12 Cos (8.38 x 1.90 + 1.92)
x = 6.12 Cos (17.842)
x = 6.12 (0.5339)
x = 3.267 m
Thus, the displacement at t = 1.9 s is 3.267 m.
(B) Velocity is v.
So, differentiate the displacement function with respect to time
v = - 6.12 (8.38) Sin (8.38 t + 1.92) = - 51.286 Sin (8.38 t + 1.92)
Now substitute t = 1.9 s
v = - 51.286 Sin (17.842)
v = - 51.286 (- 0.8455)
v = 43.36 m/s
Thus, the velocity of the body at t = 1.9 s is 43.36 m/s.
(c) Acceleration is a.
So, differentiate the velocity function with respect to time
a = - 51.286 (8.38) Cos (8.38 t+ 1.92)
Now substitute t = 1.9 s
a = - 429.78 Cos (17.842)
a = - 229.47 m/s^2
Thus, the acceleration of the body at t = 1.9 s is - 229.47 m/s^2.
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