5-49. Determine force P on the cable if the spring is compressed 25 mm when the mechanism is in t...
0 Question 3 a) Using the Force Method, determine the reactions at all supports. In addition to the applied loads, support at A rotates 0.005 radian counterclockwise Given E=200GPa and i=150 x 106 mm! 200 x 109 (20 marks) oda rotation 5 kN/m 25 kNm 10 m 6 m By Figure 3 b) If a spring is connected at point C, determine the force in this spring using the force Method By comparing to the solution in Question 3(a), what...
A 5-kg collar A is at rest on top of, but not attached to, a spring with stiffness k1 = 400 N/m when a constant 150-N force is applied to the cable. Knowing A has a speed of 1 m/s when the upper spring is compressed 75 mm, determine the spring stiffness k2. Ignore friction and the mass of the pulley
(2) zliä The spring has a stiffness of k = 800 N/m and an unstretched length of 225 mm. Determine (a) the force in spring 400 mm Ak - 800 N/ mB 300 mm –500 mm - 170 N 165 N 180 N - 195 N 220 N تقطتات b) the force in cable BC) 129 N 122 N O 150 N 144 N O 133 N O نقطة و the force in cable BD when the .spring is held...
2. In the mechanism shown, each of the two wheels has a mass of 30 kg and a centroidal radius of gyration of 100 mm. Each link OB has a mass of 10 kg and may be treated as a slender bar. The 7 - kg collar at B slides on the fixed vertical shaft with negligible friction. The spring has a stiffness k = 30 kN/m and is contacted by the bottom of the collar when the links reach...
The particle of mass m is released when the spring of stiffness K is compressed by a, and travels without friction around the vertical loop ABCD of radius r. Determine the force exerted by the loop on the particle at point B. Gravity acceleration is g. The particle of mass m is released when the spring of stiffness k is compressed by a, and travels without friction around the vertical loop ABCD of radius r. Determine the force exerted by...
2. In the mechanism shown, each of the two wheels has a mass of 30 kg and a centroidal radius of gyration of 100 mm. Each link OB has a mass of 10 kg and may be treated as a slender bar. The 7 - kg collar at B slides on the fixed vertical shaft with negligible friction. The spring has a stiffness k = 30 kN/m and is contacted by the bottom of the collar when the links reach...
The spring has a stiffness of k=800N/m and an unstreches length of 200mm. Determine the force in cables BC and BD when the spring is held in the position shown.
When s 0.6 m, the spring is not stretched or compressed, and the 10 kg block, which is subjected to a force of 100 N, has a speed of 5 m/s down the smooth plane. Find the distance s when the block stops. .S k 200 N/m 5 m/s F 100 N 30 When s 0.6 m, the spring is not stretched or compressed, and the 10 kg block, which is subjected to a force of 100 N, has a...
Problem#1 (7.5 points): Determine the force in the cables AD, AC and the elongation of the spring AB (k = 1.5 KN/m) necessary to support a mass of 40 kg as shown in the figure below. 60° 2 m 135 2 m 120 B k = 1.5 kN/my Problem#2 (7.5 points): Determine the force in the cables AD, AC, and AE necessary to support the structure shown in the figure below. FRE 9 m FAB = 3.5 kN 4.5 m...
A 3 m rigid bar AB is supported with a vertical translational spring at A and a pin at B The bar is subjected to a linearly varying distributed load with maximum intensity g Calculate the vertical deformation of the spring if the spring constant is 700 kN/m. (ans: 21.43 mm) 2. A steel cable with a nominal diameter of 25 mm is used in a construction yard to lift a bridge section weighing 38 kN. The cable has an...