22-19. The slender rod has a mass of 0.2 kg and issupported at O by a pin and at its end A by two springs,each having a stiffness k = 4 N/m. The period of vibrationof the rod can be set by fixing the 0.5-kg collar C to the rodat an appropriate location along its length. If the springs areoriginally unstretched when the rod is vertical, determinethe position y of the collar so that the natural period ofvibration becomes 7 = 1 s. Neglect the size of the collar.600 mmk Ak

Answered: 22-19. The slender rod has a mass of…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Similar questions

Determine the member end moment and reaction of the structure by using kanis method
3
the answers must be: By = 49,111.11 NVcmax = -9277.78 N+Mcmax = 54,222.22 N-m
The tube supports the four parallel forces. Determine the magnitudes of forces FC and FD acting at C and D so that the equivalent resultant force of the force system acts through the midpoint O of the tube.
ASAP
The device shown is a part of an automobile seat- back-release mechanism. The part is subjected to the 4-N force exerted at A and a 300-N•mm restor- ing moment exerted by a hidden torsional spring. Determine the y-intercept of the line of action of the single equivalent force. y F =4 N 10 mm 15° 40 mm 300 N-mm
The spring attached to the mechanism has an unstretched length when θ = 90°. Determine the position θ for equilibrium and investigate the stability of the mechanism at this position. Disk A is pin connected to the frame at B and has a weight of 20 lb. Neglect the weight of the bars.
Q2. Member ABC is supported by two fixed supports at points A and C. The member has heights of 100mm at points A and C whereas the height is 600mm at point B. A point torque of 10KN.m is applied Im away from the point A. Determine the reactions at supports A and C. Write vour results in the box below. Use G-100GPA. B A T= 10 kN.m 100 mm 600 mm 1 m 1 m 2 m

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