The beam is supported by a pin at B and a roller at C and is subjected to the loading shown with w =110 lb/ft, and F 205 lb. a.) If M = 2,590 ft-lb, determine the support reactions at B and C. Report your answers in both Cartesian components. b.) Determine the largest magnitude of the applied couple M for which the beam is still properly supported in equilibrium with the pin and roller as shown. 2013 Michael Swanbom CC BY NC SA M ру W B⚫ C F ka b Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value a 3.2 ft b 6.4 ft C 3 ft a.) The reaction at B is B = The reaction at C is C = ĵ lb. i+ Ĵ lb. b.) The largest couple that can be applied is M ft-lb. == i+

The beam is supported by a pin at B and a roller at C and is subjected to the loading shown with w =110 lb/ft, and F 205 lb. a.) If M = 2,590 ft-lb, determine the support reactions at B and C. Report your answers in both Cartesian components. b.) Determine the largest magnitude of the applied couple M for which the beam is still properly supported in equilibrium with the pin and roller as shown. 2013 Michael Swanbom CC BY NC SA M ру W B⚫ C F ka b Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value a 3.2 ft b 6.4 ft C 3 ft a.) The reaction at B is B = The reaction at C is C = ĵ lb. i+ Ĵ lb. b.) The largest couple that can be applied is M ft-lb. == i+

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

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter4: Coplanar Equilibrium Analysis

Section: Chapter Questions

Problem 4.125P: The figure shows a three-pin arch. Determine the horizontal component of the pin reaction at A...

See similar textbooks

Similar questions

The beam is supported by a pin at B and a roller at C and is subjected to the loading shown with w =120 lb/ft, and F = 335 lb. a.) If M 3,580 ft-lb, determine the support reactions at B and C. Report your answers in both Cartesian components. b.) Determine the largest magnitude of the applied couple M for which the beam is still properly supported in equilibrium with the pin and roller as shown. 2013 Michael Swanbom CC → BY NC SA M ka лу W B• b с F Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value α 2.4 ft b 6 ft с 2.6 ft a.) The reaction at B is B The reaction at C is C = = II ĵ lb. i+ ĵ lb. b.) The largest couple that can be applied is M = ft-lb. i+
The beam is supported by a pin at B and a roller at C and is subjected to the loading shown with w =120 lb/ft, and F = 335 lb. a.) If M 3,580 ft-lb, determine the support reactions at B and C. Report your answers in both Cartesian components. b.) Determine the largest magnitude of the applied couple M for which the beam is still properly supported in equilibrium with the pin and roller as shown. 2013 Michael Swanbom BY NC SA M ру W F ka* b Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value a 2.4 ft b 6 ft с 2.6 ft a.) The reaction at B is B = 0 ☑ it i+ 892 ✓ × lb. The reaction at C is C: = 8.6 ☑i+ 162.79 ✓ lb. b.) The largest couple that can be applied is M = 422 x ft-lb.
Q.4) The rod is supported by journal bearings at A, B and C and subjected to a force of 500 N (in y-z plane) and a couple moment of 400 N-m as shown below. The bearings are in proper alignment and exert only force reactions on the rod. Derive the static equilibrium equations for the rod shown and find the force reactions at the bearings. 500 N 0.3 m 42° A 0.4 m 400 N.m B 0.1 m S 0.2 m -y
Answe should be : C= 59.6 lb at 130 degrees from the positive x-axis. A= 162 lb at 6.47 degrees from the positive x-axis
Question 6.
Q.2) The windlass is supported by a thrust bearing at A and a smooth journal bearing at B, which are properly aligned on the shaft. Determine the magnitude of the vertical force P that must be applied to the handle to maintain the equilibrium of the 100kg bucket. Also, calculate the reactions at the bearings. Since the bearings at A and B are aligned correctly, only force reactions occur at these supports. 0.3 m 981 N 0.5 m 0.1 m By 0.4 m B 30% 0.3 cos 30°m X 0.3 m G 0.5 m 0.1 m 0.1 m X 100 kg 0.3 m 30% 0.3 m
Determine the vertical component of the pin reaction at C.
please is urgent The 7.8m steel I-beam has a mass of 800kg and is lifted into position by applying a force P on the trolley to which the lower end B is secured. Cable AC is tied center of the beam and is horizontal when B is exactly below C. Determine, in function of x, the force P needed to maintain equilibrium from x=0 to the value of x at which A' lies exactly below C. Find the maximum value of P and the corresponding value of x.
For the frame shown, determine the magnitude if the pin reaction at B. Neglect the weight of the frame.
The 400-kg uniform beam is subjected to the three external loads shown. Compute the reactions at the support point O. The x-y plane is vertical. Positive values are to the right, up, and counterclockwise. 43 kN-m 33 4.2 kN A B 2.7 kN - 1.2 m-- 1.7 m 1.7 m Answers:
24. The 30-lb homogeneous bar AB supports the 60-lb block. The ends of the bar rest on 30 lb 60 Ib B frictionless inclines. Determine 12 ft 30 the distance x for which the 60 bar will be in equilibrium in the position shown. Answer: 10.5 ft Figure SP-3.18
Your answer is partially correct. The 410-kg uniform beam is subjected to the three external loads shown. Compute the reactions at the support point O. The x-y plane is vertical. Positive values are to the right, up, and counterclockwise. y 37 3.0 kN 39 kN m A B 5.8 kN -1.2 m- 1.8 m 1.8 m Answers: O, = 1.805 kN O, = 0.614 kN Mo = i 22173.54 kN-m eTextbook and Media Attempts: unlimited Submit Answer Save for Later