A carnival ride rotates around a fixed axis such that the angular position of a point on the ride follows the equation 8(t) = a + bt² = ct³ where a = 3.2 rad, b = 0.85 rad/s^2 and c = 0.025 rad/s^3. Determine an equation for the angular speed of the ride as a function of time, w(t). The answer should be in the symbols a, b, c not their numerical value. What is the magnitude of the angular displacement of the ride in radians between times t = 0 and t = t₁? (t₁ being the only other time, the ride comes to a stop) What is the angular acceleration in rad/s^2 when the ride is at rest at t = t₁?

A carnival ride rotates around a fixed axis such that the angular position of a point on the ride follows the equation 8(t) = a + bt² = ct³ where a = 3.2 rad, b = 0.85 rad/s^2 and c = 0.025 rad/s^3. Determine an equation for the angular speed of the ride as a function of time, w(t). The answer should be in the symbols a, b, c not their numerical value. What is the magnitude of the angular displacement of the ride in radians between times t = 0 and t = t₁? (t₁ being the only other time, the ride comes to a stop) What is the angular acceleration in rad/s^2 when the ride is at rest at t = t₁?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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A carnival ride rotates around a fixed axis such that the angular position of a point on
the ride follows the equation 0(t) = a + bt² = ct³ where a = 3.2 rad, b = 0.85 rad/s^2
and c = 0.025 rad/s^3.
Determine an equation for the angular speed of the ride as a function of time, w(t). The
answer should be in the symbols a, b, c not their numerical value.
What is the magnitude of the angular displacement of the ride in radians between times
t = 0 and t = t₁? (t₁ being the only other time, the ride comes to a stop)
What is the angular acceleration in rad/s^2 when the ride is at rest at t = t₁?

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Step 3: Determine the angular position at t=0 and time t1 at which w=0

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Step 4: Determine the magnitude of angular displacement between the time t=0 t=t1

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Step 5: Determine the angular acceleration at t=t1

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