tamax What is the maximum tangential acceleration a, of a point on the wheel a distance R = 1.29 m from its center? a₁ = What is the magnitude of the total acceleration of this point? a= ms m/s² m/s²

College Physics
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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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**Rotational Dynamics Problem**

A motorized wheel is spinning with a rotational velocity of \(\omega_0 = 1.81 \, \text{rad/s}\). At \(t = 0 \, \text{s}\), the operator switches the wheel to a higher speed setting. The rotational velocity of the wheel at all subsequent times is given by:

\[
\omega(t) = \omega_0 \arctan(c + bt^2)
\]

where \(c = 1.5574\) and \(b = 6.09 \, \text{s}^{-2}\).

### Questions

1. **At what time \(t_{\text{max}}\) is the rotational acceleration at a maximum?**

   \(t_{\text{max}} = \underline{\hspace{2cm}}\) ms

2. **What is the maximum tangential acceleration \(a_t\) of a point on the wheel a distance \(R = 1.29 \, \text{m}\) from its center?**

   \(a_t = \underline{\hspace{2cm}}\) m/s\(^2\)

3. **What is the magnitude of the total acceleration of this point?**

   \(a = \underline{\hspace{2cm}}\) m/s\(^2\)
Transcribed Image Text:**Rotational Dynamics Problem** A motorized wheel is spinning with a rotational velocity of \(\omega_0 = 1.81 \, \text{rad/s}\). At \(t = 0 \, \text{s}\), the operator switches the wheel to a higher speed setting. The rotational velocity of the wheel at all subsequent times is given by: \[ \omega(t) = \omega_0 \arctan(c + bt^2) \] where \(c = 1.5574\) and \(b = 6.09 \, \text{s}^{-2}\). ### Questions 1. **At what time \(t_{\text{max}}\) is the rotational acceleration at a maximum?** \(t_{\text{max}} = \underline{\hspace{2cm}}\) ms 2. **What is the maximum tangential acceleration \(a_t\) of a point on the wheel a distance \(R = 1.29 \, \text{m}\) from its center?** \(a_t = \underline{\hspace{2cm}}\) m/s\(^2\) 3. **What is the magnitude of the total acceleration of this point?** \(a = \underline{\hspace{2cm}}\) m/s\(^2\)
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