QUESTION 4b The system shown in Figure Q4b consists of rollers A and B, and rod...
QUESTION 5a A system consists of a 0.6 kg rod AOB and 0.6 kg disc CD is attached to each other with cable BD. Figure Q5a shows that at position 1, the rod is vertical when it started to move due to moment M = 2.4 Nm that wind up the cable to the disc one cycle until the rod reaches horizontal position at 2. Determine the rotational velocity of the rod, waob at position 2. The spring attached to...
Problem 18.68 Part A The system consists of a 30-kg disk A, 17-kg slender rod BA, and a 5-kg smooth collar A. The system is released from rest when 8-45o. (Figure 1) If the disk rolls without slipping, determine the speed of the collar at the instant 8-30 Express your answer to three significant figures and include the appropriate units. 이 ? A- 1 Value Units Submit Request Answer Figure < 1of1 Provide Feedback 2 m 30 0.5 m
Problem...
The system consists of a 30 kg disk, a 12 kg slender rod BA, and a 5 kg smooth collar A. If the disk rolls without slipping, determine the velocity of the collar at the instant ?=0. The system is released from rest when ?=45.aaa.png
Problem 18.68 9 of 9 PartA The system consists of a 51-kg disk A, 22-kg slender rod BA, and a 5-kg smooth collar A The system is released from rest when θ 45°. (Figure 1) If the disk rolls without slipping, determine the speed of the collar at the instant 30° Express your answer to three significant figures and include the ap propriate units. Figure 1 of 1 A 405 Submit Incorrect: Try Again; 4 attempts remaining B. 30 0.5...
The pendulum consists of a 7-kg slender rod with length (L) of 1.2 m and it is fixed to a 16-kg disk with radius of 0.3 m. If the spring has an un-stretched length of 0.2 m and stiffness of 200 N/m, determine the angular velocity of the pendulum when it is released from rest and rotates clockwise 90° from the position shown. The roller at C allows the spring to always remain vertical. At θ-00, the stretched length of...
QUESTION 2 The bent rod OABDE shown in Figure 02 is supported by a ball and socket joint at 0, a radial bearing at D, and cable AF. The rod is subjected to a 200 N load applied at B. The mass of the bent rod can be neglected. The radial bearing E does not support any axial force and moments. For this instant: - a) Draw the free body diagram of the bent rod OABDE. b) Determine the reactions...
4) Figures 4A (side view) and 4B (overhead view) illustrates a uniform solid cylinder having mass M and radius R. The cylinder is positioned on a horizontal floor having sufficient friction to ensure that the cylinder can roll without slipping. The cylinder includes a mass-less yoke that is fixed to the symmetric axis of the cylinder and acts as a rolling friction-less pivot for the cylinder. An ideal spring having spring constant K is attached to the yoke at one...
4) Figures 4A (side view) and 4B (overhead view) illustrates a uniform solid cylinder having mass M and radius R. The cylinder is positioned on a horizontal floor having sufficient friction to ensure that the cylinder can roll without slipping. The cylinder includes a mass-less yoke that is fixed to the symmetric axis of the cylinder and acts as a rolling friction-less pivot for the cylinder. An ideal spring having spring constant K is attached to the yoke at one...
The 14-kg rod AB is pin-connected at A and subjected to a couple moment of M =15 N.m. The rod is released from rest when the spring is unstretched at 0 = 30°. As the rod rotates, the spring always remains horizontal, because of the roller support at C. (Figure 1) Figure < 1 of 1 > k=40 N/m WW 0.75 m Provic M15 N.m Part A Determine the rod'_s angular velocity, measured clockwise, at the instant 0 = 60°...
The moveable pulley shown in the Figure below has a diameter of 113.4 cm . The radius of gyration of the moveable pulley is 345 mm. The weight of the pulley is 549.36 N. A load with a mass of 111111 g is attached to the pulley as illustrated in the Figure. The pulley and the attached load are suspended by a spring and cable as shown. The system is released from rest. The spring is initially stretched 123 mm....