Determine the angular velocity of bar AB. The angular velocity of bar AB is rad/s O.

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At the instant shown, the angular velocity of rod \(DE\) is \(11 \, \text{rad/s}\) clockwise and the angular velocity of bar \(EF\) is \(16 \, \text{rad/s}\) counterclockwise.  **Diagram Explanation:** - The diagram depicts a mechanical linkage system consisting of rods and a slider. - Rod \(DE\) is a horizontal bar positioned above a vertical bar \(EF\), which rests on a horizontal plane. - The distance between points \(D\) and \(E\) is \(20 \, \text{in.}\) - The vertical height from point \(E\) to point \(F\) is \(15 \, \text{in.}\) - There is a diagonal bar \(AB\) with a pivot at point \(A\) creating a \(45^\circ\) angle with the horizontal. - Point \(B\) connects the diagonal bar \(AB\) with the slider, which is highlighted in green along rod \(DE\). **Problem Statement:** Determine the angular velocity of bar \(AB\). The angular velocity of bar \(AB\) is \( \boxed{} \, \text{rad/s}\).

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**Problem Statement:** Determine the relative velocity of collar \( B \) with respect to rod \( DE \). **Solution:** The relative velocity of collar \( B \) with respect to rod \( DE \) is \(\_\_\_\_\_\_\) in./s →.