At the instant shown the boomerang has an angular velocity w=4 rad/s, and its mass center G has a velocity VG = 6 in./s. (Figure 1) Figure 1.5 in Sin. <1 of 1 Part A Determine the z and y components of the velocity of point B at this instant. Express your answers using three significant figures separated by a comma. 197| ΑΣΦΑ (UB)z. (UB)y= Submit Request Answer < Return to Assignment vec Provide Feedback ? in. /s

At the instant shown the boomerang has an angular velocity ω = 4 rad/s , and its mass center G has a velocity vG = 6 in./s

Determine the x and y components of the velocity of point B at this instant. Express your answers using three significant figures separated by a comma.

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**Transcription for Educational Website** **Text Description:** - At the instant shown, the boomerang has an angular velocity \( \omega = 4 \, \text{rad/s} \), and its mass center \( G \) has a velocity \( v_G = 6 \, \text{in./s} \). (Refer to Figure 1) - **Part A** - Determine the \( x \) and \( y \) components of the velocity of point \( B \) at this instant. - Express your answers using three significant figures separated by a comma. \[ (v_B)_x, (v_B)_y = \quad \text{in./s} \] - Buttons for Input: - Various symbols and tools for entering mathematical expressions. - Submission Options: - Submit button - Request Answer link - Provide Feedback link **Figure Description:** - A boomerang with labeled points: - Point \( G \) indicating the center of mass. - Point \( B \) on the outer edge. - Dimensions given: - Distance from point \( A \) to center point \( G \): \( 1.5 \, \text{in.} \) - Distance from point \( A \) to point \( B \): \( 5 \, \text{in.} \) - Velocity vector \( v_G \) forms a \( 30^\circ \) angle with the horizontal axis. - The angle from point \( G \) to point \( B \) is \( 45^\circ \). - An arc at point \( B \) shows a \( 60^\circ \) angle with reference to the boomerang's rotation.