Answered: Find the support reactions and joint…

Find the support reactions and joint force of the construction, shown on the figure, if: q3D24 kN/m, M=10 kNm and L=3 m. .K M 2L 2L

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter1: Tension, Compression, And Shear

Section: Chapter Questions

Problem 1.3.10P: Find support reactions at 4 and Band then use the method of joints to find all member forces. Let b...

See similar textbooks

Related questions

Q: 1 Three identical bars of lengths / are arranged and supported in a horizontal plane, as shown in…

Q: Calculate Tension BD if P = 100 kN. ... 1m 2.5 m D 250 N P -1.5 m- 2 m 1.5 m Use the editor to…

A: Find the tension in BD.

Q: The cantilever truss in the figure is hinged at D and E. Find the force in member AC. 1000 Ib 60 60•…

Q: In the figure below, a pulley can pull a 1-ton load from rest to 3 m/s upwards at 2 seconds. AB and…

A: Given: The load, W = 1 ton The speed, v = 3 m/s The time, t = 2 s The compressive stress, σ = 140…

Q: Consider the truss shown in (Figure 1). Suppose that F = 60 kN and F2 = 30 kN. !! Figure < 1 of 1 50…

Q: Two identical trusses support a load of 100 N as shown in the figure. The length of each truss is…

A: Given:

Q: B Support reactions will be found in the gerber beam whose loading condition is given in the figure.…

Q: Find the reactions by drawing a free body diagram and then draw the shear force diagram. 30 kN 50 kN…

Q: The BC rod, which is assumed to be rigid and massless in Figure, stands horizontally with the help…

A: Draw the deflection diagram. From the deflection diagram, the relation between deflections is,

Q: The cantilever truss in the figure is hinged at D and E. Find the force in member BD. 1000 1b 60 60…

Q: For the rigid frames shown in Figure, determine the displacements and rotations of the nodes, the…

A: Given: The elastic modulus, E = 210 GPa The cross-sectional area, A = 1 x 10-2 m^2 The moment of…

Q: 1.5 kN/m Given the figure at the right, solve for the support reactions. 10kN.m 30 3KN 14KN 1.2m…

Q: Member AB (helical spring) and Member AC (axial rod) are carrying a weight at point A. Member AB has…

Q: The BC and DE bars in the figure are made of steel (Eç = 200GPA), each of which has a width of 12 mm…

Q: Two gondolas on a ski lift are locked in the position shown in the figure while repairs are being…

Q: 200N/m 30 -3 m 800 N -3 m →3 m

A: GIVEN :- Point load : P=800Nangle: θ=30°length of rod : L=9 muniformally varying load: Luvl=3m ,…

Q: Two gondolas on a ski lift are locked in the postion show in the figure while repairs are being made…

A: Given data as per question WC=650 lbDAB=12 ftDBC=70 ftDCD=20ftΔB=3.9 ftΔC=7.1 ftL=100…

Q: A F F W2 d A Section A-A The following figure shows the free-body diagram of a connecting-link…

A: FROM DATA BOOK, Sut=64kpsi Sy=54kpsi a=2.7 b=-0.265 kb=1 kc=0.85 endurance limit, Se=0.5Sut…

Q: To draw the internal normal force diagram, it is important to determine the internal normal force at…

A: Find internal force at point A Given data:- P1=4.5 kips P2=8 kips

Q: The cantilever truss in the figure is hinged at D and E. Find the force in member CE. 1000 Ib 60 60°…

Q: The vertical reaction in the hinged support shown in the figure is Blank 1 N. 200 N 200 N D E D 2 m…

Q: ka 2 ki P Rigid bar k3 for the system shown in the figure, which of the following statements are…

A: from the figure , we see that , point 1,2,3,4 are rigid on the wall , so they can't move while…

Q: The slender plank shown in figure is held in equilibrium by the action of the force Fp. Find the…

A: Given, m = 200 kg

Q: A 400 N gas sign hangs from the end of a uniform strut BC. The strut is 4 m long and weighs 600 N.…

A: FBD of given figure First we calculate the angle tanθ=34θ=tan-134θ=36.86 Now consider clockwise…

Q: Q.1) A plane truss is loaded as shown in the figure. What is magnitude of force in the member CD and…

A: use method of section cut a section xx Take moment about point C 500*20 +100*10 = FBD*203 FBD =…

Q: Clause 3. A load of 100 kg acts on the structure as shown in the figure. Find the force acting on…

Q: In figure, if the floating ball radius is blä 5 0.5 m and its density= 2000 N/m3, the * ? cable…

Q: PROBLEM I Find the support reactions and joint force of the construction, shown on the figure, if P…

Q: Q2: The horizontal force NK 5 at the end D is acting on the structure in Figure (2). Find the effect…

Q: A frame structure is shown in the following Figure. Members ABC and BD are pin jointed to supports…

Q: 1-For the figure below take M number of you and find the reactions? 2-ls the body balanced or not? 3…

Q: Q.3) For the truss shown in the figure, the forces F1 and F2are 9 kN and 3 kN, respectively. The…

Q: A mechanism carries a constant load P applied to the seat as E shown. Calculate the forces, in…

A: Forces in mechanisms can be calculated by balancing them in particular directions. The sum of all…

Q: The truss shown in the figure is applied with force P = 5 KN. Which of following nearly gives the…

Q: The cantilever truss in the figure is hinged at D and E. Find the force in member AB. 1000 Ib 60 60…

Q: b) For the truss in the figure below, determine the zero-force members and give a short explanation…

Q: To draw the internal normal force diagram, it is important to determine the internal normal force at…

Q: Find the support reactions and joint force of the construction. shown on the figure, if P12 kN, 4 q…

Q: Q.4] Find the forces in the members of the bridge truss shown below. 5KW 5KN A k B k 12 m 8m с 10 KN…

Q: Q.4) Consider a truss PQR loaded at P with a force F as shown in the figure. The tension in the…

Q: Consider the truss as shown in the figure and parameter table. The maximum allowable tensile force…

Q: Determine the force in members BC, GA, and BG of the truss shown in the figure below. Let P = 175…

A: Find the force in member BC,GA and BG

Q: The cantilever truss in the figure is hinged at D and E. Find the force in member AB. 1000 Ib 60 60…

Q: giew. given in the figure below, is (A) 27 kN (Tensile) (B) 15 kN (Compressive) C) 20 kN…

Q: For the given figure below, the beam is 57.4 m long. It has a rectangular cross-section area with…

A: Consider the diagram as shown below for the given beam. Here Fs is the spring force.

Q: PROBLEM 1 Find the support reactions and joint force of the construction, shown on the figure, if:…

Q: Consider the set-up shown. It has rocker at A, which resists downward displacement, but allows…

Q: Consider the truss shown in the figure, built from three struts attached by three pins. The truss…

Question

please accept

Find the support reactions and joint force of the construction, shown on
the figure, if: q3D24 kN/m, M=10 kNm and L=3 m.
.K
M
2L
2L

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 by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Quality Assurance, Process Planning, and Quality Control

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

Solve the preceding problem for the following data: b = 6 in., b = 10 in, L = 110 ft, tan a = 1/3, and q = 325 lb/ft.
Frame ABC has a moment release just left of joint B. Find axial force N, shear force V, and moment M at the top of column AB. Write variables N, V, and M in terms of variables P and L.
Space Frame ABC is clamped at A, except it is free to rotate at A about the x and y axes. Cables DC and EC support the frame at C. Force Py= - 50 lb is applied at the mid-span of AS, and a concentrated moment Mx= -20 in-lb acts at joint B. (a) Find reactions at support A. (b) Find cable tension Forces.
A 150-lb rigid bar AB. with friction less rollers al each end. is held in the position shown in the figure by a continuous cable CAD. The cable is pinned at C and D and runs over a pulley at A. (a) Find reactions at supports A and B. (b) Find the force in the cable.
Space frame A BCD is clamped at A, except it is Free to translate in the .v direction. There is also a roller support at D, which is normal to line CDE. A triangularly distributed Force with peak intensity q0 = 75 N/m acts along AB in the positive - direction. Forces Px= 60 N and Pz = = 45 N are applied at joint C, and a concentrated moment My = 120 N . m acts at the mid-span of member BC. (a) Find reactions at supports A and I). (b) Find internal stress resultants N. E’I T, and .11 at the mid-height of segment AB.
A soccer goal is subjected to gravity loads (in the - z direction, w = 73 N/m for DG, BG, and BC; w = 29 N/m for all other members; see figure) and a force F = 200 N applied eccentrically at the mid-height of member DG. Find reactions at sup ports C, D, and H.
A cargo ship is tied down to marine boll arts at a number of points along its length while its cargo is unloaded by a container handling crane. Each bollard is fastened to the wharf using anchor bolts. Three cables having known tension force magnitudes F, = ll0 kN.F, = 85kN.and F, 9OkNare secured to one bollard at a point A with coordinates (0.0.45 m. 0) in the x-r-: coordinate system shown in the figure part b. Each cable force is directed at an attachment point on the ship. Force F, is directed from point A to a point on the ship having coordinates (3 m, 9 m. 0) force F, is directed at a point with coordinates (6.5 m. 8.5 m. 2 m) and force F, is directed at a point with coordinates (8 m. 9 m. S m). The diameter of each anchor bolts is 4 24 mm. (a) Find the reaction forces and reaction moments at the base of the bollard. (b) Calculate the average shear stress in the anchor bolts (in the x-: plane). Assume each bolt cart ics an equal share of the total force.
RAX M A 0 F RAY Enter FAP: kN F₂ The figure above is a pin-joint frame with angle = 30° between members AF and AB. (Note that the diagram is not to scale). Given that the reaction forces at the support A are given by RAX = 10kN and RAY = 25kN, calculate the forces in members AB and AF, denoted by FAB and FAP respectively. Enter your answers in kilonewtons (kN) correct to 2 decimal places in the boxes below: Enter FAB KN D RDY
4 m 5m 4 m B 4 m 80 kN 60 kN find the forces in members (BC,BE and DE) ? T or C p 10:36
A transmission tower (a truss) for supporting electric wires is shown. The load of wire at D is shown as force F1 at an angle of a and the load of wire at A is shown as force F2 at an angle of B. Using the values given in the table below: F1 (N) F: (N) a (deg) B (deg) w (m) h (m) Value 150 70 30 60 2 a) Find the reaction forces at supports Y and Z. b) Determine the forces supported by members DO, DM, SV, and UX and specify whether the member is in Tension or Compression. M Q B F1 F2 T W X h
2.) The plate is supported by a pin in a smooth slot at B. What are the reactions at the supports? [Answer: Ax= 3.46 (right), Ay = 2 kN (down), B = 4 kN] 2 kN-m A 2 m 6 kN-m B 1/260 60°
Rope BCA passes through a pulley at point C and supports a crate at point A. Rope segment CD supports the pulley and is attached to an eye anchor embedded in a wall. Rope segment BC creates an angle of ¢ = 64.0 ° with the floor and rope segment CD creates an angle 0 with the horizontal. If both ropes BCA and CD can support a maximum tensile force Tmaz = 165 lb , what is the maximum weight Wmax of the crate that the system can support? What is the angle 0 required for D equilibrium? Express your answers numerically in pounds and degrees to three significant figures separated by a comma. • View Available Hint(s) vec ? Wmax, 0 = lb, degrees