Problem #1The inclined pole is subjected to a 5 kNmagnitude force vector F acting from point Btowards point C.В (1,5, 6) m(a) Determine the angle 0 that exists betweenthe force vector F and the pole AB.F(b) Determine the magnitude of the componentof the force vector F that acts parallel to thepole AB.Ay(c) Determine the magnitude of the componentof the force vector that acts perpendicularto the pole AB.С (4, 3, 0) m(d) If the maximum allowable compressiveforce (i.e., Parallel Component of F) the pole AB can resist is 8 kN, determine thelargest magnitude of the vector F that can be applied at B in the direction shown tosatisfy this condition.

Answered: Image /qna-images/answer/e13b2940-7c0d-41ea-aa95-9b1751e947eb.jpg

Problem #1 The inclined pole is subjected to a 5 kN magnitude force vector F acting from point B towards point C. B (1,5, 6) m (a) Determine the angle 0 that exists between the force vector F and the pole AB. F (b) Determine the magnitude of the component of the force vector F that acts parallel to the pole AB. A (c) Determine the magnitude of the component of the force vector that acts perpendicular to the pole AB. y C (4, 3, 0) m (d) If the maximum allowable compressive force (i.e., Parallel Component of F) the pole AB can resist is 8 kN, determine the largest magnitude of the vector F that can be applied at B in the direction shown to satisfy this condition.

Problem #1 The inclined pole is subjected to a 5 kN magnitude force vector F acting from point B towards point C. B (1,5, 6) m (a) Determine the angle 0 that exists between the force vector F and the pole AB. F (b) Determine the magnitude of the component of the force vector F that acts parallel to the pole AB. A (c) Determine the magnitude of the component of the force vector that acts perpendicular to the pole AB. y C (4, 3, 0) m (d) If the maximum allowable compressive force (i.e., Parallel Component of F) the pole AB can resist is 8 kN, determine the largest magnitude of the vector F that can be applied at B in the direction shown to satisfy this condition.

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

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter6: Beams And Cables

Section: Chapter Questions

Problem 6.4P: Find the internal force systems acting on sections 1 and 2.

See similar textbooks

Related questions

Q: (b) The two cables exert the forces shown on the pole Figure Q1(b). (Refer to Appendix 1 for the…

Q: 3. Four forces act on a point but only three of them are shown in the figure below. Determine the…

Q: ft Q4) Determine the force magnitude F and direction 0 (measured clockwise from the positive y-axis)…

A: Given data: The resultant force along x-direction = 24 kN Need to determine the magnitude and…

Q: Determine the moment produced by force Fabout segment AB of the pipe assembly. Express the result as…

Q: 1. From the given coplanar force system which consists of two forces and one couple. Replace the…

Q: Represent the resultant of the force system acting on the pipe assembly by a single force R at A and…

A: Given:Draw the free body diagram of the pipe assembly.The force acting at point A in the x-direction…

Q: Problem: Three concurrent forces P, Q, and F have a resultant of 5 lb directed forward and up to the…

Q: Q. 2) Given the following system of forces acting on the solid as shown, (a) Determine the…

A: A solid structure is given with force and moments acting as shown.

Q: Question #1: The radius of the two pulleys shown below is 1-ft. Other dimensions are as shown. Show…

Question

Problem #1
The inclined pole is subjected to a 5 kN
magnitude force vector F acting from point B
towards point C.
В (1,5, 6) m
(a) Determine the angle 0 that exists between
the force vector F and the pole AB.
F
(b) Determine the magnitude of the component
of the force vector F that acts parallel to the
pole AB.
A
y
(c) Determine the magnitude of the component
of the force vector that acts perpendicular
to the pole AB.
С (4, 3, 0) m
(d) If the maximum allowable compressive
force (i.e., Parallel Component of F) the pole AB can resist is 8 kN, determine the
largest magnitude of the vector F that can be applied at B in the direction shown to
satisfy this condition.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

Find the internal force systems acting on sections 1 and 2.
The pole OB is subjected to the 6004b force at B. Determine (a) the rectangular components of the force; and (b) the angles between the force vector and the coordinate axes.
The force-couple system acting at O is equivalent to the wrench acting at A. If R=600i+1400j+700klb and |C|=1200lbft, determine CR.
Cable ABC of length 5 m supports the force W at B. Determine (a) the angles 1 and 2; and (b) the force in each cable segment in terms of W.
Find the resultant force (magnitude, direction and position) of a parallel force system. F1 = 40 lb up at 2 ft from point A; F2 = 70 lb down at 8 ft from point A; and F3 = 60 lb up at 13 ft from point A. Note: point A is the left end of the bar
answer quickly
From the lesson of spatial force system, resolve problem 3 if x = 15 m, y = 20 m, the support at A is moved downward by a vertical distance of 3 m, the support at B is moved upward by a vertical distance 4 m and the support at C is moved downward by a vertical distance 2 m. Determine the magnitude and coordinate direction angles of the resultant force. 600 N 400 N 800 N 24 m (16 m 4m 6 m 18 m
Help!! Answer all clearly
Q1: For the following force system, find the moments with respect to axes x, y, and z
A truss supports the loading shown. Determine the equivalent force acting on the truss and the point of intersection of its line of action with a line drawn through points A and G.
Refer to the image for question details and the diagram.
Find the resultant of the following concurrent forces graphically and analytically: FI=100N 37° counterclockwise from the +x-axis F2-100N 50° clockwise from the -x-axis F3-80 N 233° counterclockwise from the +x-axis