Part A A double collar C is pin connected together such that one collar slides over a fixed rod and the other slides over a rotating rod. The geometry of the fixed rod for a short distance can be defined by a lemniscate, p2 = (4 cos 20) ft². Rod OA is rotating at a constant rate of é = 4.2 rad/s. (Eigure 1) Determine the collar's radial and transverse components of velocity at the instant 0 = 0° as shown. Express your answers using three significant figures separated by a comma. |ν ΑΣφ vec Ur, Ve = ft/s Figure 1 of 1 > Submit Request Answer Part B 2 = 4 cos 2 0 Determine the collar's radial and transverse components of acceleration at the instant 0 = 0° as shown. Express your answers using three significant figures separated by a comma. V ΑΣφ ? vec ar, ag = ft/s²

Part A A double collar C is pin connected together such that one collar slides over a fixed rod and the other slides over a rotating rod. The geometry of the fixed rod for a short distance can be defined by a lemniscate, p2 = (4 cos 20) ft². Rod OA is rotating at a constant rate of é = 4.2 rad/s. (Eigure 1) Determine the collar's radial and transverse components of velocity at the instant 0 = 0° as shown. Express your answers using three significant figures separated by a comma. |ν ΑΣφ vec Ur, Ve = ft/s Figure 1 of 1 > Submit Request Answer Part B 2 = 4 cos 2 0 Determine the collar's radial and transverse components of acceleration at the instant 0 = 0° as shown. Express your answers using three significant figures separated by a comma. V ΑΣφ ? vec ar, ag = ft/s²