Plz plz solve both parts within 10 minutes 1.The angled bar shown in Fig. P6-5 is supported by a pin at C and a cable at B. Draw the FBD forthe bar (neglect weight).DP30°C30°30°Fig. P6-52.The cart shown in Fig. P6-11 has two rollers in contact with the frictionless inclined surface andis supported by a cable as shown. Draw the FBD for the cart, which has weight W acting at point G.BCableFig. P6-11

Answered: Image /qna-images/answer/5d6c3f90-1fb3-4c59-a5bf-c6b7382a2a8e.jpg

1. The angled bar shown in Fig. P6-5 is supported by a pin at C and a cable at B. Draw the FBD for the bar (neglect weight). D A 30° C 30° Fig. P6-5 B 2. The cart shown in Fig. P6-11 has two rollers in contact with the frictionless inclined surface and is supported by a cable as shown. Draw the FBD for the cart, which has weight W acting at point G. Cable Fig. P6-11

1. The angled bar shown in Fig. P6-5 is supported by a pin at C and a cable at B. Draw the FBD for the bar (neglect weight). D A 30° C 30° Fig. P6-5 B 2. The cart shown in Fig. P6-11 has two rollers in contact with the frictionless inclined surface and is supported by a cable as shown. Draw the FBD for the cart, which has weight W acting at point G. Cable Fig. P6-11

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

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter5: Three-dimensional Equilibrium

Section: Chapter Questions

Problem 5.12P: The homogeneous 240-lb bar is supported by a rough horizontal surface at A, a smooth vertical...

See similar textbooks

Similar questions

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.
Repeat Problem 11.2-3 assuming that R= 10 kN · m/rad and L = 2 m.
The figure shows the FBD of a portion of the space truss shown in Fig. P5.25. Use this FBD to find the force in member BD.
The piston in an engine is attached to a connecting rod AB, which in turn is connected to a crank arm BC (see figure). The piston slides without friction in a cylinder and is subjected to a force P (assumed to be constant) while moving to the right in the Figure. The connecting rod. with diameter d and length L, is attached at both ends by pins. The crank arm rotates about the axle at C with the pin at B moving in a circle of radius R. The axle at C, which is supported by bearings, exerts a resisting moment M against the crank arm. (a) Obtain a formula for the maximum permissible force Pallow. based upon an allowable compressive stress acin the connecting rod. (b) Calculate the Force Pallowfor the following data:
The linkage is made of two homogenous bars of weights shown in the figure. Determine the horizontal force P required to hold the linkage in the position shown.
The coeffient of static friction between the uniform bar AB of weight W and the ground is 0.45. Find the smallest angle and the corresponding force P that would initiate simultaneous tipping and sliding of the bar.
The bar ABC is supported by three identical, ideal springs. Note that the springs are always vertical because the collars to which they are attached are free to slide on the horizontal rail. Find the angle at equilibrium if W = kL. Neglect the weight of the bar.
The homogeneous 240-lb bar is supported by a rough horizontal surface at A, a smooth vertical surface at B, and the cable BC. Draw the FBD of the bar and count the unknowns.
The center of gravity of the nonhomogeneous bar AB is located at G. Find the angle at which the bar will be in equilibrium if it is free to slide on the frictionless cylindrical surface.
Repeat Prob. 4.152 assuming that the 400-kN force is applied at O instead of L.
In the figure, the radius of cylinder A is 4m, cylinder B is 6m and cylinder C is 5m. Neglecting friction, a) solve For the reaction between A and B, b) reaction between the wall and B c) reaction between the Floor and A. Given: Distance between 15 KN and 40 KN load is 8m.
The ABC lever is supported at point A and connected to a short connection BD as shown in Fig.5-22a. If the weight of the members is insignificant, determine the force of the pin on the lever at A.