Q.1) The beam ABC is supported by a cable at C and is subjected to two forces of 30 kN and 40 kN as shown in the figure. Determine the maximum tension on the cable and reaction forces at point A. N as shown in the figure. Neglect the thickness of the beam. A 30 kN 45% B 40 KN C 4 m D 5 m

Q.1) The beam ABC is supported by a cable at C and is subjected to two forces of 30 kN and 40 kN as shown in the figure. Determine the maximum tension on the cable and reaction forces at point A. N as shown in the figure. Neglect the thickness of the beam. A 30 kN 45% B 40 KN C 4 m D 5 m

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter11: Columns

Section: Chapter Questions

Problem 11.5.10P: Solve the preceding problem (W 250 × 44.8) if the resultant force P equals 110 kN and E = 200 GPa.

See similar textbooks

Related questions

Q: b) For the truss structure in Figure Q4, determine the forces FAE, FAB and FCF acting in members AE,…

Q: Given: A horizontal boom is supported by cables AB and CD and by a ball and socket join at O. A load…

Q: The simple truss is loaded by a system of forces as shown in the figure. The truss is supported by a…

Q: A B C |–3.6 m-| 18 kN D E 2m *+ 2 m + 2m F

Q: The bent rod is supported at A, B, and C by journal bearings, as shown in (Figure 1). The rod is…

A: The moment applied is The force applied is

Q: A bent pipe is attached to a wall with brackets as shown. A force of F = 170 lb is applied to the…

A: Given data, Force, F = 170 lb a = 8.68 in b = 14.9 in c = 14.2 in d = 46.5 in h = 29.5 in g = 31 in…

Q: Determine the reactions at Cand D when P = 200 lb. A -3 ft The reaction at C= The reaction at D = CO…

Q: Determine the support reactions of the frame shown in the following figure. Also, determine internal…

A: According to the given data we need to find Support reaction Internal forces at point C

Q: For the beam shown w = 10 lb/ft, and M = 310 ft-lb. Determine the reactions at A and B. Enter the…

Q: 18 kN A AZ 2 m 4 m B

Q: 4 m 5 m 4 m B 4 m 80 kN 60 kN fınd the forces in members (BC,BE and DE) ? T or C p 10:36

Q: A bridge of length 50.0 m and mass 7.60 of mass 3.30 x 104 kg is located 15.0 m from one end. What…

Q: Q/1: A 10 m long vertical mast has a ball-and socket joint at A, and it is supported by two (2)…

Q: y P2 B P1

A: Drawing the free body diagram of the given truss as shown below – At A the support is fixed and at…

Q: Neglect the weight of the Rod AC, other conditions are shown as figure , determine the reaction…

Q: The simply supported beam is subjected to the loads as described in the figure and parameter table.…

Question

Q.1) The beam ABC is supported by a cable at C and is subjected to two forces of 30 kN and 40 kN as
shown in the figure. Determine the maximum tension on the cable and reaction forces at point A. N as
shown in the figure. Neglect the thickness of the beam.
A
30 kN
45°
B
40 KN
C
4 m
D
5 m

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Step by step

Solved in 3 steps with 3 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Using the figure below, find (a) the reaction forces at B & C, and (b) the forces in the members AB, BC, and AC. Solve in terms of in terms of P first, then P=50KN P 4m B 3m 4.5m-
7. The beam ABC, built into the wall at A and supported by a cable at C, carries a distributed load over part of its length, as shown in figure. The weight of the beam is 70 kN/m. (a) Draw the FBD of the beam, (b) determine the reaction at support A, and (c) determine the magnitude of the force at point A. 6 m 1000 kN/m A B |C - 3m-- 5 m
The load W is to be lifted using the crane shown in the figure. Neglect the weight of the crane. Determine the resultant reaction at B.
A truss bridge is loaded with point loads according to the figure. Determine the normal force in the two diagonal bars in the middle.
Q.4) Determine the tensions in the three cables supporting a weight of 180 N as shown in figure below. Draw the necessary free-body diagram. 6 m 4 m 5 m i 5 m 8 m 8 m - y
Find the tension in the diagonal cable and the magnitude and direction of the force on the strut by the pivot. The weight of the crate is 2500 N. The strut is uniform and 3.0 m and its weight is 6000N. The angles are a=40 and ß=50 degrees. Draw all the forces acting in the system. Use 2 significant figures in your answer. Write units in calculations. B la
thx
A stepped bar is held in equilibrium by several forces acting at different points along the length, as shown in the figure below. The magnitudes for three of the forces are F₂ = 31 kN, F3 = 23 kN, and F₁ = 17 kN. All forces act parallel to the axis of the bar, and both pairs of forces F₂ and F3 are located the same distance from the centerline of the bar. Determine the internal normal forces (P) at points A, B, and C. Note: Express tension forces as positive (+) and compression forces as negative (-). F₁ PA = PB = Pc F₂ A: F₂ number (rtol=0.01, atol=1e-05) number (rtol=0.01, atol=1e-05) number (rtol=0.01, atol=1e-05) B kN kN > kN € F₂ C. F₁
*The member is supported by a pin at A and cable BC. Suppose that r = 3.5 m and the cylinder has a mass of 40 kg* Pt A : Determine the tension in the cable BC. Pt B: Determine the components of reaction force at the support A using scalar notation. Pt C: Determine the components of moment of reaction at the support A.
In the figure the boom derrick supports a suspended 15-kip load . The booms BC and DE are each 20 ft long. The distances are a = 15 ft and b = 2 ft, and the angle θ= 30 degrees . The angle between BE and BC in 77.4 degrees . Determine the tension in cable AB and the reactions at the pin supports and D.
Q10
3) A machine weighing 1500 N is supported by two chains attached to some point on the machine. One of these ropes goes to the eye bolts in the wall and is inclined 30°to the horizontal and other goes to the hook in ceiling and is inclined at 45°to the horizontal. Find the tensions in the two chains.