PROBLEM 2 (3 points): The unstretched (undeformed) length of spring AB is 3m. If the block...
i will give a rate position shown by the cable AB and the spring BC. " Problem 3: The 100-kg crate is held in equilibrium in the position shown by the car a. (5 points) Sketch the FBD of B b. (16 points) Find the tensile forces in the cable and the spring. C. (4 points) If the spring constant k of spring BC is 1,000 N/m, find the spring. BC is 1,000 N/m, find the unstretched length of the...
2. Determine the unstretched length (length with no force developed) in the spring assuming the box has a mass of 40kg, is in equilibrium and the spring constant (k) is 180 N/m OC 1. A force of 800N is used to pull point A. Determine the tensions in each cable (DA, BA and CA) required to hold point A in equilibrium. DJ - 3 m -3m- 4 m -4mB
Each spring has an unstretched length of 2 m and a stiffness of k = 250 N/m A.) Determine the stretch in OA spring required to hold the 20-kg crate in the equilibrium position shown. B.) Determine the stretch in OB spring required to hold the 20-kg crate in the equilibrium position shown. 12 m 6 m
(b) (3 points) A ball of mass m is attached to a spring (with unstretched length lo and spring constant k) which hangs vertically. The ball is initially held at rest with the spring at its unstretched length. Then, the ball is let go. Consider the instant when the ball reaches its lowest position (the spring stretches to its maximum length and s instantaneously at rest), I was done by the spring force during this process (that is from release...
P3 (points) - The 15-kg slender rod is attached to a spring, which has an unstretched length of 3m. If the rod is released from rest when 0 = 45°, determine its angular velocity at the instant 0 = 60°. 5m B WWW 5m WW K= 50 N/m с
Springs AB and AC were unstretched before attaching the box at D. Determine the developed elongation of springs AB and AC, SAB and sac, resulted from holding the 25 kg box in the position shown. The springs are shown in equilibrium position. Hint: First calculate the spring forces along AB and AC required for equilibrium. Show Free Body Diagrams and all calculations. 4 m - 6 m To 4 m c = 20 N/m wwwwww kaB = 30 N/m
both part A and B Each spring has an unstretched length of 2 m and a stiffness of k 340 N/m .(Figure 1) Part A Determine the stretch in OA spring required to hold the 19-kg crate in the equilibrium position shown. Express your answer to two significant figures and include the appropriate units Figure 1 of 1 LA SOA- 1 Value Units Submit quest Answer 12 m - Part B 4 m 6 1 Determine the stretch in OB...
Each spring has an unstretched length of 2 m and a stiffness of k = 300 N/m (Figure 1) Part A Determine the stretch in OA spring required to hold the 16-kg crate in the equilibrium position shown. Express your answer to two significant figures and include the appropriate units. 30A = Value Units Submit Request Answer Part B Determine the stretch in OB spring required to hold the 16-kg crate in the equilibrium position shown. Express your answer to...
1. (30 points) A 2-kg block A is pushed up against a spring compressing it a distance r-0.1 m (i.e., the spring is unattached to the block). The block is then released from rest and slides down the 20° incline u it strikes a 1-kg sphere B that is suspended from a 1-m inextensible rope. The spring constant 800 N/m, the coefficient of friction between A and the ground i length of the spring d-1.5, and the coefficient of restitution...
(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...