Knowing that 0 = 32° and Mc = 290 ft·lb, reduce the force-couple system shown to an equivalent force and couple at point B. Enter the magnitude of the couple at B below in ft lb to the nearest whole ft lb. Enter a positive number if the couple at B is CCW and a negative number if the couple at B is CW. Your written solution must show the magnitude and direction of the equivalent force and the equivalent couple at B. You should also calculate the equivalent force and couple at point A and at point C for practice. Knowing that 32° and Mc = 290 ft-lb, reduce the force-couple system shown to an equivalent force and couple at point B. Enter the magnitude of the couple at B below in ft-lb to the nearest whole ft-lb. Enter a positive number if the couple at B is CCW and a negative number if the couple at B is CW. Me 150 lb 2 ft 4 ft 50 lb Your written solution must show the magnitude and direction of the equivalent force and the equivalent couple at B. You should also calculate the equivalent force and couple at point A and at point C for practice.

Knowing that 0 = 32° and Mc = 290 ft·lb, reduce the force-couple system shown to an equivalent force and couple at point B. Enter the magnitude of the couple at B below in ft lb to the nearest whole ft lb. Enter a positive number if the couple at B is CCW and a negative number if the couple at B is CW. Your written solution must show the magnitude and direction of the equivalent force and the equivalent couple at B. You should also calculate the equivalent force and couple at point A and at point C for practice. Knowing that 32° and Mc = 290 ft-lb, reduce the force-couple system shown to an equivalent force and couple at point B. Enter the magnitude of the couple at B below in ft-lb to the nearest whole ft-lb. Enter a positive number if the couple at B is CCW and a negative number if the couple at B is CW. Me 150 lb 2 ft 4 ft 50 lb Your written solution must show the magnitude and direction of the equivalent force and the equivalent couple at B. You should also calculate the equivalent force and couple at point A and at point C for practice.

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

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter2: Basic Operations With Force Systems

Section: Chapter Questions

Problem 2.80P: The figure shows one-half of a universal coupling known as the Hooke's joint. The coupling is acted...

See similar textbooks

Similar questions

Replace the three forces shown by an equivalent force-couple system at point A. If the forces are replaced by a single resultant force, determine the distance d below point A to its line of action. 130 N 450 mm 450 mm 450 mm 205 N Answers: Force-couple system at A. The force is positive if to the right, and the couple is positive if counterclockwise. R= i N M = i Single resultant force. d= i 160 N N•m mm
Replace the three forces shown by an equivalent force-couple system at point A. If the forces are replaced by a single resultant force, determine the distance d below point A to its line of action. 160 N 730 mm 730 mm 260 N 730 mm 280 N Answers: Force-couple system at A. The force is positive if to the right, and the couple is positive if counterclockwise. R = i M = i N.m Single resultant force. d = i mm
If the force P and couple M is to be replaced with a single force , where is the point of application of this single force along bar ABCD in order to have the same external effect as the original set of force P and couple M? Suppose an equivalent system was made such that only a force at B and a couple are present. Which of the following pairs gives the magnitudes of the force at B and the couple in the equivalent system?
3. Determine the equivalent single force of the shown system of forces and couples. Determine and draw its line of action on the x-y plane. F₁ = 20 lb 3 ft 4 ft F2=10 lb 5 ft M₂=100 lb-ft -3 ft- F3 = 50 lb M₁ = 170 lb-ft X
The magnitude of the moment of force P with respect to AB is 600 lb*ft. Determine the magnitude of P.
Question 3: The weight of the plate is 300-N. The tension in cable AB is 350-N, and tension in cable CD is 550-N. a- Replace forces acting on the plate with a force-couple at point O. b-Show that if tension in cables was 360-N each, the two forces acting on the plate at B and C form a couple. Express this couple in vector form and find its magnitude. 4 m -4 m- TE 6m O C (0,3,0) m ndodong B (8,-3,4) m
The arm ABCD of the industrial robot lies in a vertical plane that is inclined at 40 to the yz-plane. The arm CD makes an angle of 30 with the vertical. A socket wrench attached at point D applies a 52-lb ft couple about the arm CD, directed as shown. (a) Find the couple-vector that represents the given couple. (b) Determine the moment of the couple about the z-axis.
The two forces of magnitude F=30kN form a couple. Determine the corresponding couple-vector.
The figure shows one-half of a universal coupling known as the Hooke's joint. The coupling is acted on by the three couples shown: (a) the input couple consisting of forces of magnitude P, (b) the output couple C0, and (c) the couple formed by bearing reactions of magnitude R. If the resultant of these couples is zero, compute R and C0 for P=750lb.
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.
Knowing that the resultant of the two forces is vertical, determine the angle
Replace the three forces shown by an equivalent force-couple system at point A. If the forces are replaced by a single resultant force, determine the distance d below point A to its line of action. Answers: R= i M= i 160 N 290 N d = Single resultant force. i www Force-couple system at A. The force is positive if to the right, and the couple is positive if counterclockwise. 300 N 650 mm 650 mm 650 mm N N.m mm