The simply supported beam is subjected to the loads as described in the figure and parameter table.Neglecting the thickness of the beam, calculate the horizontal and vertical support reactions at A and B.FABC-4*-L3parametervalueunitsL1L2L3ft4ft6fttheta65F200lbM500lb-ftFor the answers, take to the right and up to be the positive directions.The support reaction at A in the z direction is NAz-lbThe support reaction at A in the y direction is NAy-lbThe support reaction at Bin the z direction is NB=lbThe support reaction at Bin the y direction is NBy=lb

Answered: Image /qna-images/answer/f7fa4312-c5f4-42df-ae41-aa131b814917.jpg

The simply supported beam is subjected to the loads as described in the figure and parameter table. Neglecting the thickness of the beam, calculate the horizontal and vertical support reactions at A and B. F M A В L2 parameter value units 6 ft L2 L3 4 ft 6 ft theta 65 F 200 lb M 500 Ib-ft For the answers, take to the right and up to be the positive directions. The support reaction at A in the z direction is NAn= lb The support reaction at A in the y direction is NAy- lb The support reaction at Bin the a direction is NBz= lb The support reaction at Bin the y direction is NBy- lb

The simply supported beam is subjected to the loads as described in the figure and parameter table. Neglecting the thickness of the beam, calculate the horizontal and vertical support reactions at A and B. F M A В L2 parameter value units 6 ft L2 L3 4 ft 6 ft theta 65 F 200 lb M 500 Ib-ft For the answers, take to the right and up to be the positive directions. The support reaction at A in the z direction is NAn= lb The support reaction at A in the y direction is NAy- lb The support reaction at Bin the a direction is NBz= lb The support reaction at Bin the y direction is NBy- lb

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter6: Stresses In Beams (advanced Topics)

Section: Chapter Questions

Problem 6.5.6P: The Z-section of Example D-7 is subjected to M = 5 kN · m, as shown. Determine the orientation of...

See similar textbooks

Related questions

Q: 5) Use the method of sections to find the true magnitude and direction in bar DB of the truss. Hint(…

Q: Find the support reactions of the beam given in the figure.

Q: Example (1):Find the two components of the force (100 X) if: 0 = 30, 120 270° as shown in figure.…

Q: Consider the bracket shown in Fig-1. If: • F1 = 10 N@ 120° • F2 = 75 N@ -90° then, what is the…

A: Given: The force, F1 = 10 N The force, F2 = 75 N

Q: In the cage system connection in the figure; Rod forces S1 = 100 kN, S2 = 40 kN, S3 = - 60…

A: From the symmetry .. θ=450

Q: g x direction. The initial strain along y direction. The initial strain in z direction Additional…

A: Rectangular steel block Lx = 3 inchLy = 2 inchLz = 4 inch Fx = + 30 kipsFy = -60 kipsFz = 54 kips

Q: Hinge supported frame is loaded by two concentrated forces and a couple. F1 a F2 M

A: To determine the reactions. NOTE: According to Bartleyby's policy we shall answer only one…

Q: What are the STANDARD SI UNITS For Resultant force, FR Couple moment, M Load Intensity, w What are…

A: Let us discuss the units of given three quantities.

Q: 1. A 100lb weight is suspended by three cables as shown in the figure. The ratios of the stiffness…

A: The mass of the block is m=100 lb. The ratio of stiffness of cables are in ratio AP:BP:CP=2k:k:3k

Q: The beam shown is supported by a roller at "A" and a pin at "C". If w1 = 4.1 lb/ft, w2 = 18.1 lb/ft,…

A: Given ,A beam which is supported by a roller at A and a pin at C.W1 = 4.1lb/ft , W2 = 18.1 lb/ft ,…

Q: What would be the resultant force Fof the triangular distributed load and its location d measured…

A: Given:

Q: tipod shawn supports that ball and rocket joints are used to mount the tripud points BID,and C. oad…

Q: 5. Find the total reaction force at point B. For full credit do not use SIN and COS, only use the…

A: Step 1:Step 2:Step 3:Please give helpful ratingStep 4:

Q: Use the diagram shown above. Given: • D₁ = 10 ft • D₂ = 3 ft . W 100 #/ft Solve for the internal…

Q: Find the cross product between the vectors C A" for A" =(2i-5 j'+k") and C= (3i-2j-4k^)

A: Data given- C = 3i - 2j - 4k A = 2i - 5j + k

Q: Given that F = 1000 Kn and P = 1434. Determine the following: a. Component of forces F and P b.…

A: Dear student, we are suppose to solve only 3 sub parts. Please post other parts as a separate…

Q: Please solve this question with all details please (handwritten) I will give like if it’s correct

Q: Required information A rope connecting points A and B supports the force F shown in the figure.…

Q: Figure Q5 shows few loadings applied on bar ABD. Suppose the diameter of the bar is 120 mm, and…

Q: Refer to the cable in the figure. Consider a horizontal tensioning force in the supports of H = 20…

Q: A transmission tower (a truss) for supporting electric wires is shown. The load of wire at D is…

Q: In the figure below, a weight W is suspended from point D of a beam AD. The beam is held up by rod…

A: Consider the above truss carefully. Consider the beam AD, in this it can be seen that there are 3…

Q: Find the loading in ED GD and GC. EI, IJ, JK, and KG are equal length. A wire is attached to point G…

A: To Find: Forces in the members ED, GD, and GC = ?

Q: Don't Use Chat GPT Will Upvote And Give Handwritten Solution Please

A: To determine the x-component of the net force on the particle at the origin, we need to consider the…

Q: The tube, shown below, is supported by two cables (AB) and (AC). A force F = 100 Ib is applied in…

Q: answer all parts

Q: Determine the values and draw the diagrams for shear force and bending moment due to the imposed…

A: Determine the values and draw the diagrams for shear force and bending moment due to the imposed…

Concept explainers

Slope and Deflection

The slope in a deflected beam is described as an angle in radians made by the tangent of the section with the original axis of the beam. The deflection at any point on the axis of the beam is defined as the lateral displacement of the point before and after loading.

Question

100%

The simply supported beam is subjected to the loads as described in the figure and parameter table.
Neglecting the thickness of the beam, calculate the horizontal and vertical support reactions at A and B.
F
A
B
C
-4*-
L3
parameter
value
units
L1
L2
L3
ft
4
ft
6
ft
theta
65
F
200
lb
M
500
lb-ft
For the answers, take to the right and up to be the positive directions.
The support reaction at A in the z direction is NAz-
lb
The support reaction at A in the y direction is NAy-
lb
The support reaction at Bin the z direction is NB=
lb
The support reaction at Bin the y direction is NBy=
lb

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

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

The Z-section of Example D-7 is subjected to M = 5 kN · m, as shown. Determine the orientation of the neutral axis and calculate the maximum tensile stress c1and maximum compressive stress ocin the beam. Use the following numerical data: height; = 200 mm, width ft = 90 mm, constant thickness a = 15 mm, and B = 19.2e. Use = 32.6 × 106 mm4 and I2= 2.4 × 10e mm4 from Example D-7
The main cables of a suspension bridge (see figure part a) follow a curve that is nearly parabolic because the primary load on the cables is the weight of the bridge deck, which is uniform in intensity along the horizontal. Therefore, represent the central region AOB of one of the main cables (see part b of the figure) as a parabolic cable supported at points A and B and carrying a uniform load of intensity q along the horizontal. The span of the cable is L, the sag is /i, the axial rigidity is EA\ and the origin of coordinates is at mid span. (a) Derive the following formula for the elongation of cable AOB shown in part b or the figure: (b) Calculate the elongation 5 of the central span of one of the main cables of the Golden Gate Bridge for which the dimensions and properties are L = 4200 ft,h = 470 ft, q = 12,700 lb/ft, and E = 23,300,000 psi The cable consists of 27,572 parallel wires of diameter 0.196 in. Hint: Determine the tensile force Tal any point in the cable from a free-body diagram of part of the cable; then determine the elongation of an element of the cable of length ds: finally, integrate along the curve of the cable to obtain an equation for the elongation £.
A beam with a sliding support at B is loaded by a uniformly distributed load with intensity q. Use the method of superposition to solve for all reactions. Also draw shear-force and bending-moment diagrams, labeling all critical ordinales.
A cable CD of a length H is attached to the third point of a simple beam AB of a length L (see figure). The moment of inertia of the beam is I, and the effective cross-sectional area of the cable is A. The cable is initially taut but without any initial tension, (a) Obtain a formula for the tensile force S in the cable when the temperature drops uniformly by T degrees, assuming that the beam and cable are made of the same material (modulus of elasticity E and coefficient of thermal expansion . Use the method of superposition in the solution, (b) Repeat part (a), assuming a wood beam and steel cable.
7 please answer the problems, the answer is already given i just need the solution please type your answer if you can because i can't view written answers
From the figure below determine the following: A. The reactions at A and B B. The resultant force and its location on the beam measured from point A Please Include a Solution, freebody diagram with proper symbols and directions.
Consider a rigid rod that is subjected to two external forces and is fixed to the wall at A. The following figure displays the rod's free body diagram. Answer the following questions using the provided FBD. 2.5 -1 1 3.5 The support reaction at A along x-axis (A) is The support reaction at A along y-axis (Ay) is The support reaction at A along z-axis (A.) is The Moment reaction at support A about x-axis (Ma) is -1 n 1 0 -2.5 2.5 -1 -3.5 5.5 -5.5 -0.5 0.5 A₂ Mx4 Z M₂ My KN KN KN 3m KN.m 1m 1 KN 2m 2.5 KN
The simply supported beam is subjected to the loads as described in the figure and parameter table. Neglecting the thickness of the beam, calculate the horizontal and vertical support reactions at A. F, F2 parameter value units L L2 L3 1.75 ft 1.5 ft 2 ft 30 70 F1 F2 lb 6 lb For the answers, take to the right, up, and counterclockwise to be the positive directions. The horizontal support reaction is lb The vertical support reaction is lb The moment support reaction is lb-ft
Solve the following problems completely, and make a detailed solution. Use ONLY AREAMETHOD in finding the V-M Diagram. Please do the diagram. Thankyou!
Solve the following problems completely, and make a detailed solution. Use ONLY AREAMETHOD in finding the V-M Diagram. Please input the units in steps. Thankyou!
y -X 0.3 m 0.4 m 0.15 m C A B -0.5 m G
Determine reaction A (in kN, roundoff to 2 decimal places) for the loaded beam in the figure. M=105kN-m w1=70kN/m w2=40kN/m F=75kN F w1 1.8 m RA 1.8 m M 1.2 m 2.1 m RB w2 2.4 m