The angle through which a rotating wheel has turned in time t is given by = a t

Question

The angle through which a rotating wheel has turned in time t is given by = a t b t2+ c t4, where is in radians and t in seconds.

A)Determine an expression for the instantaneous angular velocity if t is in seconds.

= ______ rad/s

B)Determine an expression for the instantaneous angular acceleration if tis in seconds.

= _______ rad/s^2

c)If a = 9.0 rad/s , b = 14.5 rad/s2 , c = 1.5 rad/s4 , evaluate at t = 3.2 s .

= _____ rad/s

d)Evaluate at t = 3.2 s .

= ______ rad/s^2

e) What is the average angular velocity between t = 2.0 s and t =3.2 s ?

avg = _______ rad/s

f)What is the average angular acceleration between t = 2.0 s and t =3.2 s ?

avg = ____ rad/s^2

= _______ rad/s^2

c)If a = 9.0 rad/s , b = 14.5 rad/s2 , c = 1.5 rad/s4 , evaluate at t = 3.2 s .

= _____ rad/s

d)Evaluate at t = 3.2 s .

= ______ rad/s^2

e) What is the average angular velocity between t = 2.0 s and t =3.2 s ?

avg = _______ rad/s

f)What is the average angular acceleration between t = 2.0 s and t =3.2 s ?

avg = ____ rad/s^2

Explanation / Answer

theta = at - b t^2 + c t^4

A)We know that,

w = d(theta)/dt

w = d(at - b t^2 + c t^4)/dt

w = a - 2 b t + 4 c t^3

b)we know that,

alpha = d(w)/dt

alpha = d(a - 2 b t + 4 c t^3)/dt

alpha = -2 b + 12 c t^2

c) w = a - 2 b t + 4 c t^3

w = 9 - 2 x 14.5 x 3.2 + 4 x 1.5 x 3.2^3 = 112.81 rad/s

Hence, w = 112.81 rad/s

d)alpha = -2 b + 12 c t^2

alpha = -2 x 14.5 + 12 x 1.5 x 3.2^2 = 155.32

Hence, alpha = 155.32 rad/s

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