Figure <1 of 1 Part A Constants The total external force on the 10-kg object shown in the figure is given as a function

Figure Part A At the instant shown, the horizontal component of acceleration of the 23000-lb airplane due to the sum of the external forces acting on it is 13 ft/s If the pilot suddenly increases the magnitude of the thrust T by 6000 lb, what is the horizontal component of the plane's acceleration immediately afterward? (Figure 1) Express your answer with the appropriate units. Figure 15 Figure F1 F 2 of 2 Two players hit an air hockey puck simultaneously. One player hits the puck with a force F = 7.40 N at an angle = 34.1. The other player hits the puck with a force F2 = 4.00 N at an angle = 61.0. ( Figure 2) If the puck has a mass m = 47.0 g, what is a, the acceleration of the puck, and y, the angle of the puck's motion? The friction between the puck and the table's surface is negligible. Express your answers numerically to three significant figures in meters per second squared and degrees separated by a comma. View Available Hint(s) a,y= Submit vec Return to Assignment Provide Feedback ? m/s,0 6 4 The 33000-lb airplane is flying in the vertical plane at 420 ft/s. At the instant shown, the angle -30, and the cartesian components of the plane's acceleration are a = -7 ft/s, ay = 26 ft/s. Part A What are the tangential and normal components of the total force acting on the airplane (including its weight)? Enter your answers numerically separated by a comma. vec Ft, F = Submit Request Answer Part B What is de/dt in degrees per second? (Figure 1) vec ? Figure 1 of 1 de/dt = Submit Request Answer Provide Feedback ? lb /s