Reference question. Make a question similar to these |/n Problems 6, 11, 26, 37, 46 17–6. Determine the moment of inertia of the assembly about an axis which is perpendicular to the page and passes through point O. The material has a specific weight of y = 90 lb/ft³. Problem 17-6 0.5 ft 1 ft G 2 ft 0.25 ft 1 ft- 17-11 The pendulum consists of a 2-kg disk and slender rods AB and DC which have a mass per unit length of 2 kg/m. Determine the length L of DC so that the center of mass is at the bearing O. What is the moment of inertia of this assembly about an axis perpendicular to the page and passing through point O? Problem 17-11 0.2 m A 0.8 m 0.5 m B 17-26. The jet aircraft has a total mass of 22 Mg and a center of mass at G. Initially at takeoff the engines provide a thrust 27 = 4 kN and T' = 1.5 kN. Determine the acceleration of the plane and the normal reactions on the nose wheel at A and each of the two wing wheels located at B. Neglect the mass of the wheels and, due to low velocity, neglect any lift caused by the wings. Problem 17-26 T 2T -1.2 m 2.5 m 2.3 m B -3m 6m 17-37. The crate of mass m is supported on a cart of negligible mass. Determine the maximum force P that can be applied a distance d from the cart bottom without causing the crate to tip on the cart. Problem 17-37 P- B 17-46. Determine the greatest possible acceleration of the 975-kg race car so that its front wheels do not leave the ground and none of the tires slip on the track. The coefficients of static and kinetic friction are μs = 0.8 and μk = 0.6, respectively. Neglect the mass of the tires. The car has four-wheel drive. Problems 17-45/46 A 1.82 m -2.20 m 0.55 m B

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