Influence lines for the force, Mechanical Engineering

Solve the following two questions of the truss. Note that A and G are pin supports. 

1)  Sketch the influence lines for the force in bar DG (the load is moving on the top chord only). 

2)  If  the  truss  is  loaded by a uniform dead  load of 4  kN/m over  the whole  length of  the  top 

chord, verify the magnitude of the bar forces in members DG. 

 

504_22.png

Posted Date: 3/23/2013 2:52:21 AM | Location : United States







Related Discussions:- Influence lines for the force, Assignment Help, Ask Question on Influence lines for the force, Get Answer, Expert's Help, Influence lines for the force Discussions

Write discussion on Influence lines for the force
Your posts are moderated
Related Questions

a) Describe Industrial Engineering. Discuss its scope and use in service and manufacturing industries. b) Deriving the stop watch study in a machine shop, ten observation of a d

CAPP for Forming Processes Sheet metal parts are produced from flat sheets on presses using special metal forming dies. Process planning for sheet metal parts involves complex

Define the Adjustable auger mechanisms They improved mounting arrangement for the auger and auger drive mechanism of a floating screed type asphalt paver. And they provide actu

What is one way shear? Explain with a suitable demonstration. One Way Shear This worked out seen a similar case is the case of wall footings. For square footings also the cr

Determine the Brake power of an Engine which is running at a fixed speed of 300 r.p.m. and carries a rope brake Dynamometer. The Dead weight on the spring balance and engine readin

A single plate clutch, effective on both sides is needed to transmit 25 KW at 3000 r.p.m. Calculate the outer and inner diameters of frictional surface if the coefficient of fricti

Piston Area : The area of a circle of diameter equal to the cylinder bore is called the piston area and is designated by the letter A and is usually expressed in square centimetr

Find out Moment of Inertia: Find out Moment of Inertia of an I shaped area around its centroidal axis as illustrated in Figure.  Solution  (i)        The area of

2 x 2 m square gate opens clockwise on a horizontal hinge located at point A, which is 100 mm below the centroid of the gate. The gate sits against solid rubber blocks which create