The antenna is following the motion of a jet plane as shown in (Figure 1). At the instant 0=25° and = 75°. the constant angular rates of change are = 0.35 rad/s and = 0.6 rad/s. The distance OA is 0.8 m. 0 Figure < 1 of 1 > Determine the velocity of the signal horn A at this instant Enter the z, y, and components of the velocity separated by commas. Express your answers in meters per second to three significant figures. vec h A (UA)z- (VA)y. (UA) Part B VAX (a). (a). (a) - Determine the acceleration of the signal horn A at this instant. Enter the z, y, and components of the acceleration separated by commas. Express your answers in meters per square second to three significant figures. ΕΠΙΑΣΦΠ Π ⒸI? vec m/s ^ A OFF

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The antenna is following the motion of a jet plane as shown in (Figure 1). At the instant 0 = 25° and = 75°, the constant angular rates of change are 0 = 0.35 rad/s and = 0.6 rad/s. The distance OA is 0.8 m. Figure T < 1 of 1 > ▾ Part A Determine the velocity of the signal horn A at this instant. Enter the z, y, and Z components of the velocity separated by commas. Express your answers in meters per second to three significant figures. VL]ΑΣΦΗ Τ (V₁)z. (V₁)y. (V₁)== Part B (a₁)z. (as)y. (a₁)== vec ΑΣΦΗΤΗ VO 6 a Determine the acceleration of the signal horn A at this instant. Enter the I, y, and 2 components of the acceleration separated by commas. Express your answers in meters per square second to three significant figures. vec ? " m/s ? m/s²