The cable will fail when subjected to a tension of 2 kN. Determine the largest vertical load P the frame will support and calculate the internal normal force, shear force, and moment at a section passing through point C for this loading. B 0.1 m 0.5 m -0.75 m- -0.75 m- -0.75 m-
Q: 20 kN 1 kN / m B D. 12 m 5m R. 150 mm 40 mm 40 mm 180 mm
A:
Q: The eye hook has the dimensions shown. If it supports a cable loading of 800 lb, determine the…
A: Draw the free-body diagram of the hook.
Q: Determine the resultant internal normal force, shear force, and bending moment at point C in the…
A: The free body diagram of the beam is shown below: From the diagram the sum of vertical forces are…
Q: A) Determine the internal shear force (in N) in section S-S B) Determine the intermal normal force…
A: Shear force is the transverse force applied to the cross-section. The normal force is the axial load…
Q: Exercises: Determine the maximum stress produced by the loads and create the shear and moment…
A:
Q: Determine the internal normal force at point C, if F = 48 kN . Determine the shear force at point C…
A:
Q: 800 N/m 4.2 kN-m A В - 2 m – 3 m- - 2 m → 2 m-
A: (1) On taking moment about B, RA9=800×34+1.5-4200RA=1000 N On taking moment about A,…
Q: Please show the Step-by-step solution. Use pen and paper to solve. Thank you Determine the reactions…
A:
Q: The handle of the press is subjected to a force of 20 lb. Due to internal gearing, this causes the…
A: Write the expression of the area and axial stress due to axial load acting on the system.
Q: F kip Determine the internal normal force and shear force, and the bending moment in the beam at…
A: From the given data,
Q: 4. Draw the load and moment diagrams given the shear diagram as shown. Show all the values at…
A: Given
Q: 1-7. The cable will fail when subjected to a tension of 800ON Determine the largest vertical load P…
A:
Q: If shear force V= 5000 N, The shear stress at joint b is: [I(x)=8.62*10^6 mm^4 and tow=VQ/lb) 100 mm
A:
Q: Solve the Magnitude and Direction of the Shear and Moment at distance "x" from the left support…
A: GIVEN DATA- A SIMPLY SUPPORT BEAM GIVEN WE HAVE TO FIND SHEAR FORCE AND BENDING MOMENT AT GIVEN…
Q: 1. Determine the shear and moment diagrams and the equations of equilibrium as a function of x (the…
A:
Q: The beam is used to support a dead load of 0.6 k/ft, a live load of 2 k/ft and a concentrated live…
A: Given data are, Live load= 2 k/ft Dead load= 0.6 k/ft Generated live load= 8 k Now, draw the FBD of…
Q: If F = 12 kN, determine the normal force, shear force, and moment at C. Part A: Determine the…
A:
Q: Determine the maximum stress produced by the loads and create the shear and moment diagrams for the…
A: Given data as per the question Diameter =1 in we know thataccording to bending…
Q: Determine the internal normal force (Axial Force), shear force, and moment at points C and D of the…
A: First let us simplify force due to UVL (Uniform Varying Load) between 60 lb/ft in to one UDL…
Q: 1. Determine the internal normal force, shear force, and bending moment at point C in the beam. 5…
A: Apply Equilibrium Conditions for the above fbd
Q: The H-beam is subjected to a shear of V = 80 kN. Sketch the shear-stress distribution acting along…
A: Consider the diagram shown below for the cross-section of the given beam. Here,
Q: Q1- Determine the normal force Nc, the shear force Vc, and the moment Mc at point C. Assume the beam…
A:
Q: For the given shear diagram, draw the actual load (indicate the position of the supports) and its…
A: We know that the shear force diagram is 1 degree higher than the actual loading diagram and the…
Q: Determine the normal force, shear force, and moment at a section passing through point C. Take P = 8…
A:
Q: Solve for the reactions and draw the shear and moment diagram. 10 kN-m 2 kN/m 4 m 6 m 4 m 6 m
A: Since you have asked multiple questions, we will solve the first question for you. If you want any…
Q: P1: (a) Determine the internal shear force and bending moment in member BCDE immediately to the left…
A: For equilibrium of AC ΣM@A = 0 = Rc x Lac – 600 = 0 Rc = 600/5 = 120lb For equilibrium of BCDE ΣM@E…
Q: THE ALUMINUM MACHINE PART IS SUBJECTED TO A MOMENT M = 75 NM. DETERMINE THE MAXIMUM %3D TENSILE AND…
A: Given M=75n.M To find maximum Tensile ? and bending force ?
Q: The axle of the freight train is subjected to loadings as shown below. The diameter of the axle is…
A:
Q: The shaft is supported by a journal bearing at A and a thrust bearing at B. Determine the normal…
A: Given data F1 = 2.5 kip F2 = 3 kip W = 75 lb/ft b = 12 ft a = 6 ft c = 2 ft To determine…
Q: Q1- Determine the normal force Nc, the shear force Vc, and the moment Mc at point C. Assume the beam…
A:
Q: Question 5 Determine the normal force, shear force, and moment at point D of the structure in Figure…
A:
Q: Q.5 Draw the shear force and bending moment diagram for the following loading diagram as given…
A: Given: Reactions at A (RA)=7.5kNReaction at C (RC)=16.5kNLoad at B=9kNLoad at D=6kNContinous loading…
Q: 6 kip/ft - 3 ft- 10ft Determine the internal normal force, shear force, and moment in the cantilever…
A:
Q: a) Determine the internal shear force diagram using the graphical method b) Determine the internal…
A: find equivalent UDL and its location, then draw SFD and BMD.for solution refer below images.
Q: Q8\ sketch the axial load, shear force and bending moment diagrams. 12 kN 16 kN/m- 12 kN 16 kN B 6…
A:
Q: The footing supports the load transmitted by the two columns. Draw the shear and moment diagrams for…
A: The free-body diagram is given as, consider the equilibrium in the y-direction,…
Q: Determine the reaction forces R1 and R2
A: we have to evaluate the reaction force r1 and r2
Q: 4. Determine the internal normal force, shear force, and bending moment at point C in the beam. 10…
A:
Q: Refer to the shear diagram shown 10 kN -5 kN - 10 kN -15 kN i m-2 m-2 m- Which of the following most…
A: Find the maximum reaction support.
Q: can you solve this?
A: Draw the free-body diagram of the beam.
Q: The aluminum strut has a cross-sectional area in the form of a cross. It is subjected to the Moment…
A:
Q: Determine the normal force, shear force, and bending moment at point C of the member below.
A:
Q: The jib crane supports a load of 750 lb from the trolly which rides on the top of the jib. Determine…
A:
Q: -2 m- A 15 kN/m 7,5 E D 30 kN-m -3 m- 15 kN/m -2 m -3 m- B Draw the shear force and bending moment…
A:
Q: Determine the internal forces and bending moment at point C. Express these based on the sign…
A: To find: Internal forces at point C = ? internal bending moment at C = ?
Q: 1-7. The cable will fail when subjected to a tension of 2 kN. Determine the largest vertical load P…
A: From the given data,
Q: F = 20 kN (note the 0.3 space at the end) The magnitude of the internal normal force at point C is…
A: given data; F=20KN w=8KN/m
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 1 images
- Solve the preceding problem (W 250 × 44.8) if the resultant force P equals 110 kN and E = 200 GPa.The way to the column where the loading status is seen determine the P load required for the 5 mm horizontal displacement of the C midpoint and the maximum shear stress that this P load will generate. b=750mm a=50mm t=4mm e=48mm E(modulus of elasticity)=70GPAThe bar is connected to the support using a pin having a diameter of d =lin. If the allowable tensile stress for the bar is (o,)low = 20ksi , and the allowable bearing stress between the pin and the bar is (0,)allow = 30ksi , determine the dimension w and t so that the gross area of the cross section is wt = 2in² and the load P is a maximum. What is this maximum load? Assume the hole in the bar has the same diameter as the pin. (Hint: Use the prjjected area whenj calculating the bearing stress.) t d w/2 w/2
- 4. The cable will fail when subjected to a tension of 8000 N. Determine the largest vertical load P the frame will support and compute theresultant internal loadings at the cross section through point C. Answer: P = 2133.33 N, Mc = 1600 Nm, Nc = 8000 N, Vc = 2133.33 N 0.1 m 0.5 m C 0.75 m- -0.75 m- -0.75 m-Q6/ If the allowable bearing stress for the material under the supports at A and B is Op altow = 2MP , determine the size of square bearing plates A' and B' required to support the load. Dimension the plates to the nearest mm. The reactions at the supports are vertical. Take P = 90 kÑ. 40 kN/m B. -1.5 m 3 m 1.5 m-Q3/ If the allowable bearing stress for the material under the supports at 4 and B is dbaltow = 2MPA , determine the size of square bearing plates A' and B'required to support the load. Dimension the plates to the nearest mm. The reactions at the supports are vertical. Take P = 150 kN. 40 KN /m 15m- 3m
- The pole is supported by a pin at B and A-36 steel guy wire AC. If the wire has a diameter of 0.2. Modulus of Elasticity of Steel = 200GPA or 29x103 ksi Poisson's ratio of steel=0.321 a. Determine how much the wire stretches when the horizontal force acts on the pole. 3 ft 30 D 2.5 kip 4 ft B b. Determine the change in the wire's radius c. At what angle is the principal stresses on pole BC? Use Mohr's Circle. d. What is the principal stress in pol BC? Use Mohr's Circle e. Draw the stresses on a unit element acting on 35-degree clockwise direction of pole BC. Use Mohr's Circle. f. What are the principal stresses in point D? Use Mohr's Circle. (answer in ksi) g. At what angle is the principal stresses acting on point D? Use Mohr 's Circle. h. Draw the stresses on a unit element acting on 35degree-clockwise direction of point D. Use Mohr's Circle. (answer in ksi)The vertical shaft with a diameter of d = 20 mm is supported by a thrust collar that rests on a 21-mm-thick plate. The thrust collar is 16-mm thick. Assume that the load P causes a compressive stress of 190 MPa in the shaft. If the bearing stress between the thrust collar and the plate is limited to 35 MPa, determine the minimum outer diameter Dcollar that must be used for the thrust collar. Thrust collar area Plate Thrust collar d DcollarThe horizontal bar shown is pinned at O and is supported with a helical springat L1 from O. L1=2m, L2=1m. The spring has 30 turns and the diameter of the wire usedis 20mm. The diameter of the spring is 125mm. Modulus of Rigidity = 83GPa. Determine the shear stress of the helical spring loaded as shown if w = 25kN/m.
- The rows of staples AB contained in the stapler is glued together so that the maximum shear stress the glue can withstand is 12 psi. Determine the maximum force F that must be placed on the plunger in order to shear off a staple from its row and allow it to exit undeformed through the groove at C. The outer dimensions are shown in the figure below. The thickness of the staple is 0.05 in. Assume all the other parts are rigid.Problem #2: The strut is by a pin at C and a A-36 steel guy wire AB (E = 200 GPa). If the wire has a diameter 5 mm, determine how much it stretches when the distributed load acts on the strut. A 60° 3.4 kN/m В 2.7 m Solve only by using this Donot nse equation &= AS'-AS AEThe 200 mm long and 20 mm diameter solid circular rod is subjected to an axial force of P. P = 400 and δ = 1.6. ElasticityCalculate the modulus E and the shear modulus G. Take 0.3 Poisson's ratio.