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11 Dec 2019
A disk at rest experiences constant angular acceleration for t = 5 s, at the end of which it is spinning with a frequency of f = 35 rpm.
Part (a) Write an expression for the magnitude of the angular velocity of the disk after the acceleration in terms of the frequency.
Part (b) Calculate the magnitude of the angular velocity of the disk in rad/s at time t = 5 s.
Part (c) Write an expression for the average angular acceleration of the disk in terms of angular velocity.
Part (d) Calculate the magnitude of the average angular acceleration of the disk from rest to t = 5 s in rad/s2.
Part (e) Write an expression for the period T of the disk in terms of frequency f.
Part (f) Calculate the magnitude of the period of the disk T at time t = 5 s in seconds.
A disk at rest experiences constant angular acceleration for t = 5 s, at the end of which it is spinning with a frequency of f = 35 rpm.
Part (a) Write an expression for the magnitude of the angular velocity of the disk after the acceleration in terms of the frequency.
Part (b) Calculate the magnitude of the angular velocity of the disk in rad/s at time t = 5 s.
Part (c) Write an expression for the average angular acceleration of the disk in terms of angular velocity.
Part (d) Calculate the magnitude of the average angular acceleration of the disk from rest to t = 5 s in rad/s2.
Part (e) Write an expression for the period T of the disk in terms of frequency f.
Part (f) Calculate the magnitude of the period of the disk T at time t = 5 s in seconds.
Supratim PalLv10
20 Sep 2020