In the assembly shown, sags of s and 1.5 s resultedwhen the two cylinders were suspended from the rings at A and B, respectively. If s =0 when the cylinders are removed, determine the following: a. the horizontal distance x (mm) moved by point B b. the mass (kg) of the two cylinders c. the forces (N) in the two springs d. thetension (N) in cable AB e the spring constant kag 2 m + 1m- - 2 m 1.5 m www. 15s Note: Use9.81m/s?for the gravitational constant and ken=134 N/m. X = 7, Y - 3, Z = 7 Parameter s =0.8+0.0003XYZ m s=0.8+0.0003*737 = 1.0211 m wwww

In the assembly shown, sags of s and 1.5 s resultedwhen the two cylinders were suspended from the rings at A and B, respectively. If s =0 when the cylinders are removed, determine the following: a. the horizontal distance x (mm) moved by point B b. the mass (kg) of the two cylinders c. the forces (N) in the two springs d. thetension (N) in cable AB e the spring constant kag 2 m + 1m- - 2 m 1.5 m www. 15s Note: Use9.81m/s?for the gravitational constant and ken=134 N/m. X = 7, Y - 3, Z = 7 Parameter s =0.8+0.0003XYZ m s=0.8+0.0003*737 = 1.0211 m wwww

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter10: Virtual Work And Potential Energy

Section: Chapter Questions

Problem 10.51P: The spring attached to the homogenous bar of weight W is undeformed when =0. Determine the smallest...

See similar textbooks

Similar questions

Bars AB and AC of the mechanism are homogenous with each of weight W. Determine the fame P required to keep the mechanism in the position shown.
The homogeneous plate of weight W is supported by a ball-and-socket joint at D and three wires. Draw the FBD of the plate and count the unknowns.
The uniform ladder of weight W is raised slowly by applying a vertical force P to the rope at A. Show that P is independent of the angle .
The spring attached to the homogenous bar of weight W is undeformed when =0. Determine the smallest spring stiffness k for which the =0 equilibrium position will be stable. Use W = 10 lb, a = 24 in., and b = 6 in. Assume that the spring remains horizontal, which is a valid approximation if is small.
What is the ratio L/R for which the uniform wire figure can be balanced in the position shown?
The cable of the suspension bridge spans L=140m with a sag H=20m. The cable supports a uniformly distributed load of w0 N/m along the horizontal. If the maximum allowable force in the cable is 4 MN, determine the largest permissible value of w0.
One end of cable AB is fixed, whereas the other end passes over a smooth pulley at B. If the mass of the cable is 1.2 kg/m and the sag is H = 1.6 m, determine the mass M that is attached to the free end of. the cable.
The homogeneous plate of weight W is suspended from two cables. Determine the force P that is necessary to keep the plate in the position shown.
The figure shows a three-pin arch. Determine the horizontal component of the pin reaction at A caused by the applied force P.
A spring with squared and ground ends has 16 active coils diameter of 6 mm and pitch of 10 mm . If spring rate is 85 KN/m , determine the solid force?
The cylinders in the figure shown are piled in a rectangular ditch as shown. The radii of cylinders A,B and C are 4m , 6m, and 5m respectively. Neglecting the friction. Determine the reaction between the wall and B in kN.
The homogeneous AB beam weighs 400 lbs. For each support condition in (a) a (d), plot the DCL of the beam and determine the number of unknowns.