A flywheel drives a collar via link. The flywheel rotates at an angular velocity of 25° 18 rad/sec clockwise. For Using ICR, determine: (a) the angular velocity of the link, (6) the velocity of the collar. d₁ = 75 mm d₂ = 260 mm NOTE: this is the same problem from this homework. but you must solve using ICR for B

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### Problem 1: A flywheel drives a collar via link. The flywheel rotates at an angular velocity of 18 rad/sec clockwise. For \(\theta = 25^\circ\), Using Instantaneous Center of Rotation (ICR), determine: (a) the angular velocity of the link. (b) the velocity of the collar. Parameters: - \(d_1 = 75 \, \text{mm}\) - \(d_2 = 260 \, \text{mm}\) **NOTE:** This is the same problem from the previous assignment, but you must solve using ICR for this homework. ### Diagram Explanation: The diagram on the right shows a mechanical system consisting of a flywheel and a link. The flywheel rotates at an angular velocity of 18 rad/sec in the clockwise direction. The parameters of the system are as follows: - \(O\) is the center of the flywheel. - \(A\) is a point on the circumference of the flywheel that the link is connected to. - \(d_1 = 75 \, \text{mm}\) represents the radius of the flywheel (the distance from \(O\) to \(A\)). - \(d_2 = 260 \, \text{mm}\) represents the length of the link \(AB\). - \(\theta = 25^\circ\) is the angle between the link and the vertical line passing through \(O\). The diagram illustrates the system in a dynamic position where the angular velocity and velocities of the components need to be determined using the ICR method.