Determine the maximum shear force in kN in the figure below. 2 kN/m B C A 4 m 2 m 5 kN
Q: A rod of a variable cross-section shown in the following figure is subjected to two axial forces.…
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Q: A material having a shear modulus G, is deformed under a pure shear stress as shown in the following…
A: Given, a= 2mm, b= 100 mm and G = 25 GPa
Q: The state of stress in a material is given in the figure. Maximum principal stress will be 45 45 5 5…
A: Given, Tensile stress in x-direction = σx = 5 units Tensile stress in y-direction = σy = 5 units…
Q: Consider the figure shown below: Ay - 300 mm The undeformed length of the bar is 300 mm. It is…
A: Given is Length of the bar = 300 mm
Q: Consider the two-member frame shown in (Figure 1). Suppose that w1 = 250 N/m , w2 = 420 N/m . Follow…
A: Given data as per question
Q: The steel beams shown in the figure are combined with a total of 12 rivets with a diameter of 12 mm.…
A: The given shear strength of the material is
Q: A 10 mm diameter rivet holds three sheets of metal together and is loaded as shown in figure below,…
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Q: As shown in the figure below, determine the internal loadings at point C. В 0.1' m 0.5 m A -0.75 m…
A: Apply Equilibrium Conditions for fbd
Q: Consider a wooden block acted upon by force P = 5.00 kN. The value of the shear/tangential force…
A: Given data, P= 5 kN θ= 30° We need to find tangential force.
Q: A 7.50 cm high annular copper cylinder with an inner radius of 2.00 cm and outer radius cm of 3.75…
A: Given data: L=7.5 cm=75 mm Inner Radius ri=2 cm=20 mm Outer Radius ro=3.75 cm=37.5 mm Tangential…
Q: Q2 A solid circular bar ABC consists of two segments, as shown in figure 2. One segment has diameter…
A: The diameter of the shaft can be determined by two criteria 1) Shear stress 2) Angle of twist Both…
Q: 1) A rectangular plate is under biaxial stress o, = 65 MPa (tensile) and ay = 20 MPa %3D…
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Q: Figure 1: y P = 400 kN 30° 1000 mm A Area 30 mm 20 mm In Figure 1, the equilibrium shear force…
A: Given data :- force = 400KN find the shear force at point A.
Q: Determine the maximum shear force in kN in the figure below. 16 kN | 4 kN/m 20 kN 2 kN/m A D
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Q: Q3: A shaft made of 40 C 8 steel is used to drive a machine. It rotates at 1500 r.p.m. The pulleys…
A: A torque, or moment of a force, is a measurement of a force's proclivity to cause a body to rotate.…
Q: In the below figure, if the shear stress on the bolt shown in the first figure is 60 MN/m2. The…
A: Consider the shear force diagram for the first figure,
Q: ed shear stress. Given: a = 1 mm, b = 100 mm and G = 25 GPa. Consider a linear elastic behavior.…
A: given:a=1mmb=100mmG=25Gpa
Q: As shown in the figure below, determine the internal loadings at point C. В 0.1 m 0.5 m A -0.75 m…
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Q: a. A steel rod of 1 cm in diameter projects (4+R) cm from the wall as shown in figure 1. If the rod…
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Q: the direction where the normal stress is zero
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Q: For the top (level n-n) of the web in Figure Q1.12 the shear stress due to a shear force V in the…
A: Given: Find the First moment of the area above n-n about the neutral axis.
Q: A material having a shear modulus G, is deformed under a pure shear stress as shown in the following…
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Q: A shaft rotating at 350 r.p.m. drives another shaft at 550 r.p.m. and transmits 10.5 kW hrough a…
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Q: Example 5 The beam is fabricated from three steel plates, and it is subjected to a shear force of V…
A: Solution - Given data - V =150 KNy =0.080196 mINA =4.8646×10-6m4
Q: Q2c) The steel alloy shaft having a diameter of 38 mm is used to transmit torque, T as shown in…
A: Given: Solution:
Q: Q2) In Figure show the force- extension curve for three materials. a) Material b) Material c)…
A: Q)Given data To determine -> which materials has high ductiity, ultimate strength and…
Q: Determine the maximum shear force in kN in the figure below. 30 kN 140 kN • m A D В C +2 m- 3 m 2 m→
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Q: Oy = 90MPA %3D Try 60MPA %3D Ox=20MPA
A: Given Data Normal stresses σx= 20MPa σy=90MPa Shear stress fxy=60MPa Main stresses are the…
Q: Q2) In Figure show the force- extension curve for three materials. a) Material b) Material c)…
A: Yield strength: It is the maximum stress which can be developed in a material without causing any…
Q: P- 55 N 16 m 45 16m Figure 1(0) The 55 N force P is applied at point C, perpendicular to the portion…
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Q: The pole in Figure is at a 90.0∘ bend in a power line and is therefore subjected to more shear…
A: Given that , Tension ,T =5 ×104Nh=15 m d=16×10-2m
Q: 1. Calculate the average shear stress in MPa of the pins B and C on the frame shown in the figure.…
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Q: A material having a shear modulus G, is deformed under a pure shean stress as shown in the following…
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Q: Determine the maximum shear force in kN in the figure below. 2 kN/m B A C 5 kN 4 m 2 m O -10 O 10 O…
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Q: A wire of diameter 0.86 mm and length 1.5 m has a force of 160 N applied, extending it by 5.2 mm.…
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Q: 40 N.m Da 0.5 m 280 N.m 150 N.m 2 0.3 m 0.4 m
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Q: A shaft rotating at 200 r.p.m. drives another shaft at 300 r.p.m. and transmits 6 kW through a belt.…
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Q: 2. Two steel cables support an applied load of 100 kN as shown in the figure below. Determine the…
A: Given-Data:- P=100KN To- Find:- a) The deformation of member AC and BC b)The vertical and horizontal…
Q: p joint with 5 rivets axially loaded with P, assuming that the load is distributed uniformly in each…
A: To determine the shear force in each rivet given that there are 5 rivets.
Q: Copper has a rigidity modulus 45 GPa. A cube of copper with 500 mm sides i tubjected to a shear…
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Q: For the system shown in Figure, Maximum shear force is:* 50KN 2kN/m A C 1m 4m
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Q: Determine the maximum shear force in kN in the figure below. 10 kN/m 25 kN • m A E B |C D 1 m 1m 3 m…
A: Answer: The maximum shear force is +/- 20 kN.
Q: 3) A rectangular block of size 200mm x 100mm x 80mm (i.e. length x width x depth) is subjected to a…
A: l=200 mmb=100 mmd=80 mm Note that the force acts also on the opposite sides but not shown in the…
Q: For the joint shown in the figure, if F = 28 kN and do = 12.8 mm, calculate: 7.5 mm F F 12 mm 12 mm…
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Q: Consider the object shown in (Figure 1). Suppose that w1 = 2.1 kN/m , w2 = 1.3 kN/m . Determine the…
A: Given data as per question w1 = 2.1 kN/m w2 = 1.3 kN/m.
Q: 1. Calculate the average shear stress in MPa of the pins B and C on the frame shown in the figure.…
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Q: A thin triangular plate PQR forms a right angle at point Q. During deformation, point Q moves to the…
A: Please refer to the detailed solution given below, Answer - Shear strain is 4696.37 Micro-Radian
Q: P2.12 (WP A thin triangular plate PQR forms a right angle at point Q. During deformation, point Q…
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Q: 2. Two steel cables support an applied load of 100 kN as shown in the figure below. Determine the…
A: Given-Data:- Load=100KN To-Find:- a) The deformation of member AC and BC b) The vertical and…
Q: 2) USE THE METHOD OF SECTIONS TO FIND THE MAGNITUDE AND DIRECTION OF THE FORCE IN BAR CD SHOWN BELOW…
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- Solve the preceding problem for the following data: b = 8.0 in., k = 16 lb/in., a = 45°, and P = 10 lb.Solve the preceding problem if the normal and shear stresses acting on element B are 56 MPa, 17 MPa, and 27 MPa (in the directions shown in the figure) and the angle is 40° (clockwise).Solve the preceding problem for sx= 11 MPa and ??y= -20 MPa (see figure).
- At a full d raw, an archer applies a pull of 130 N to the bowstring of the bow shown in the figure. Determine the bending moment at the midpoint of the bow.A flexible connection consisting of rubber pads (thickness f = 9 mm) bonded to steel plates is shown in the figure. The pads are 160 mm long and SO mm wide. (a) Find the average shear strain yaiTi in the rubber if the force P = 16 kN and the shear modulus for the rubber is G = 1250 kPa. (b) Find the relative horizontal displacement 3 between the interior plate and the outer plates.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.
- A plane frame with a pin support at A and roller supports at C and £ has a cable attached at E. which runs over Frictionless pulleys al D and B (see figure). The cable force is known to be 400 N. There is a pin connection just Lo the left of joint C. (a) Find reactions at supports^, C, and E. (b) Find internal stress, resultants N, V, and M just to the right of joint C. (c) Find resultant force in the pin near C.A uniform bar AB of weight W = 25 N is supported by two springs, as shown in the figure. The spring on the left has a stiffness k[= 300 N/m and natural length Lt=250 mm. The corresponding quantities for the spring on the right are k2= 400 N/m and L^ = 200 mm. The distance between the springs is L = 350 mm, and the spring on the right is suspended from a support that is a distance it = SO mm below the point of support for the spring on the left. Neglect the weight of the springs. (a) At what distance x from the left-hand spring (figure part a) should a load P = 18 N be placed in order to bring the bar to a horizontal position? (b) If P is now removed, what new value of k{is required so that the bar (figure part a) will hang in a horizontal position underweight If? (c) If P is removed and kt= 300 N/m. what distance b should spring ktbe moved to the right so that the bar (figure part a) will hang in a horizontal position under weight II"? (d) If the spring on the left is now replaced by two springs in series (kt= 300 N/m, kt) with overall natural length Lt= 250 mm (see figure part b). what value of k; is required so that the bar will hang in a horizontal position under weight IF?An aluminum tube has inside diameter dx= 50 mm, shear modulus of elasticity G = 27 GPa, v = 0.33, and torque T = 4.0 kN · m. The allowable shear stress in the aluminum is 50 MPa, and the allowable normal strain is 900 X 10-6. Determine the required outside diameter d2 Re-compute the required outside diameter d2, if allowable normal stress is 62 MPa and allowable shear strain is 1.7 X 10-3.
- A stepped shaft ABC consisting of two solid, circular segments is subjected to uniformly distributed torque t1acting aver segment 1 and concentrated torque t2applied at C, as shown in the figure. Segment 1 of the shaft has a diameter of d1= 57 mm and length of L1= 0.75 m; segment 2 has a diameter d2— 44 mm and length L2= 0.5 m. Torque intensity /,"= 3100 N . m/m and T2= 1100 N. m. (a) Find reaction torque TAat support A. (b) Find the internal torque T(x) at two locations: .x = L1/2 and at .x = L1+ L2/2. Show these internal torques on properly drawn free-body diagrams.A slightly tapered bar AB of rectangular cross section and length L is acted upon by a force P (see figure). The width of the bar varies uniformly From b2at end A to b1at end B. The thickness t is constant. (a) Determine the strain energy U of the bar. (b) Determine the elongation ?? of the bar by equating the strain energy to the work done by the force P.Solve the preceding problem (W 250 × 44.8) if the resultant force P equals 110 kN and E = 200 GPa.