3.The uniform rod with center of mass at G is supported bythe pegs A and B. Which are fixed in the wheel. If thecoefficient of friction between the rod and pegs is μ.determine the angle through which the wheel may beslowly turned about its horizontal axis through O, startingfrom the position shown, before the rod begins to slip.(3)B.E-I/3(R)(CBS)-25462Neglect the diameter of the rod compared with the otherdimensions. Refer figure.+anda4.Calculate the Moment of Inertia & Product of inertia ofgiven Z section about the given centroidal axis. Also Findthe angle defining the direction of principal axesthrough the centroid and principal moment of inertia.SECTION - BDetermine the equation for the envelope of the parabolictrajectories of a particle at affixed velocity but at anyinclination as shown in figure. Neglect the drag force ofair and assume a constant value of gravitationalacceleration.[Turn Over5.سه از

The given figure is shown below:

3. The uniform rod with center of mass at G is supported by the pegs A and B. Which are fixed in the wheel. If the coefficient of friction between the rod and pegs is u. determine the angle through which the wheel may be slowly turned about its horizontal axis through O, starting from the position shown, before the rod begins to slip. (3) B.E-1/3(R)(CBS)-25462 Neglect the diameter of the rod compared with the other dimensions. Refer figure. o

3. The uniform rod with center of mass at G is supported by the pegs A and B. Which are fixed in the wheel. If the coefficient of friction between the rod and pegs is u. determine the angle through which the wheel may be slowly turned about its horizontal axis through O, starting from the position shown, before the rod begins to slip. (3) B.E-1/3(R)(CBS)-25462 Neglect the diameter of the rod compared with the other dimensions. Refer figure. o

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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