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Blocks A, B, and C are restricted to move in the directions shown and are connected...
Problem 14.47) Disks A, B, C, and D can ślide freely on a frictionless horizontal surface. Disks B, C, and D are connected by light rods and are at rest in the position shown when disk B is struck squarely by disk A which is moving to the right with a velocity vo 12 m/s. The masses of the disks are m,-m,-mc - 7.5 kg, and m 15 kg. Knowing that after impact disks A and B are bound togetherV)...
3.) Given: The link shown is guided by two blocks at A and B, which move in the fixed slots. If the velocity of block A is 2 m/s downward, determine the velocity of block B at the instant 0 = 450 Note: The Velocity-Difference Equation is as follows: Yg - VA + VBIA - VA+WAB ®RBIA In addition, the following value for angular velocity is given: Ô = 7rad/s (fixed frame link 1) Find: (a) State the velocity of...
Two blocks, A and B, are initially held together by a string as shown in the figure; the mass of block A is of 2 kg and the mass of block B is 4 kg. The massless spring in-between the two blocks has a spring constant of k = 655 N/m and is initially compressed by 45 cm. The two blocks are initially moving together with a speed of 1 m/s. When the string is cut (i.e., when the blocks...
The drawing shows three identical rods (A, B, and C) moving in different planes. A constant magnetic field of magnitude 0.55 T is directed along the +y axis. The length of each rod is L = 1.2 m, and the speeds are the same, VA = VB = Vc = 3.4 m/s. Find the magnitude of the motional emf for the rods (a) A, (b) B, and (c) C. تیرا (a) Number Units (b) Number Units 100 (c) Number Units
The system shown below contains a 3 lb collar A, a 25 lb disk, and 5 lb slender rod AC. If the disk rolls without slippling and the system starts from rest at an angle of 45 degrees, what is the velocity of the collar when the rod is horizontal? Also, what is the angular velocity of rod AC? Assume L = 4 ft and r=0.5 ft. VA W AC- ft/s (1 decimal) rad/s (1 decimal) AO L 0. r...
The pendulum shown below consists of a slender rod of length L and a think disk of radius r. If the rope connected to the disk breaks as shown, find the initial angular accleration of pendulum and the reaction forces at O. Assume Wrod = 12 lbs, Wdisk = 20 lbs, r = 2 ft, and L = 3 ft. x = Ox= rad/s 2 (1 decimal) lbs (no decimals) lbs (1 decimal) Oy = 1-1 L