B A -L- Prob. 10-41
Q: *13-36. The block is subjected to the eccentric load shown. Sketch the normal-stress distribution…
A: The free body diagram of the block is given below,
Q: Draw the influence lines for the vertical reactions at supports A and E and the reaction moment at…
A: First, make a FBD of the diagram as shown below.
Q: The A992 steel rod BC has a diameter of 50 mm and is used as a strut to support the beam. Determine…
A: Given data Diameter of the rod BC d = 50 mm = 0.05m Factor of saety N= 2 Uniformy distributed load…
Q: The W8 * 15 wide-flange A992 steel column is fixed at its top and bottom. If it supports end moments…
A: Write the section properties of W8X15. Write the properties of A992 steel.
Q: 13-35. The block is subjected to the eccentric load shown. Determine the normal stres developed at…
A: Given Data: The dimension of the cross-section of the block is: l X b = 150 mm X 100 mm The force…
Q: All problem solutions must include an FBD. u 5-10. Determine the components of the support reaction…
A: As per given question We have to determine the support reaction at the fixed supports A
Q: *11-16. A reinforced concrete pier is used to support the stringers for a bridge deck. Draw the…
A: Given , Free body diagram of the beam ( bading diagram) Taking moment about point 'A'Rb x…
Q: R16-6. If the cantilever beam has a constant thickness t, determine the deflection at cnd A. The…
A: Consider a dummy load P applied at the end free end of the cantilever as show in the figure below.…
Q: F9-6. The 20-mm-diameter 2014-T6 aluminum rod is subjected to the triangular distributed axial load.…
A: Consider the axial load to follow the equation of the line.
Q: *17-64. Determine the load P required to cause the steel W310 x 74 structural A-36 steel column to…
A: Write the section properties of the given steel structure from the standard chart,
Q: 11-19 A system of beams is loaded and supported as shown in Fig. P11-19. Determine the reaction at…
A: Determine reaction at A and D in beam ADF
Q: HW 1. The 450-kg uniform 1-beam supports the load shown. Determine the reactions at the supports. ,…
A: Given: Mass of the uniform I beam is 450 kg. The beam is shown below:
Q: 11-31 Determine the horizontal and vertical components of the reaction at support B of the two-bar…
A: Consider the free body diagram shown below for the given system.
Q: 11-87. The two salid steel rods are bolted together along their length and support the loading…
A: Consider the diagram shown below for the given composite beam.
Q: Determine the reactions at A and B and the load required Q to hold bar AB in a horizontal position…
A:
Q: "9-8. The truss is made of three A-36 steel members. each having a cross-sectional area of 400 mm.…
A: Given data: Cross-sectional area is A = 400 mm2. The displacement of roller is x = 0.2 mm. Taking…
Q: The pipe can be assumed roller supported at its ends and by a rigid saddle C at its center. The…
A: Free-body diagram of a pipe is given as, On using equilibrium of force in a vertical direction,…
Q: Determine the components of the support reactions at the fixed support A on the cantilevered beam. 6…
A: Given data as per question Vertical applied force =6 KN applying equlibirium equation in y…
Q: 9.49. If the gap between C and the rigid wall at D is initially 0.15 mm, determine the support…
A: Given Data: The applied load is P = 200 kN. The gap between wall and D is x = 0.15 mm. Dimensions…
Q: 17-42. The ideal column is subjected to the force F at its midpoint and the axial load P. Determine…
A:
Q: nderstand 1) Determine the Internal forces of the following truss, having the foll 11 1 kip 2* 0.5…
A: To consider above given…
Q: 17-63. The brass rod is fixed at one end and free at the other end. If the length of the rod is L =…
A: The moment of inertia of the rod is written as, I=π64d4=π64100 mm×1 m1000 mm4=4.9×10-6 m4 The…
Q: Determine the horizontal components of the reaction on the beam caused by the pin at P. The force…
A: Let's draw free body diagram and resolve all forces in horizontal and vertical component.
Q: Determine the components of the support reaction at the fixed support A of the beam shown. You must…
A: Given Data The uniform distributed load acting on the beam is: w1=0.5 kN/m The uniform varying load…
Q: Cantilever beam has fixed support at the point A as shown in Fig. 4. Determine the component of the…
A: Drawing the free body diagram
Q: 11-20 A system of beams is loaded and supported as shown in Fig. P11-20. Determine the reaction at…
A: Given Data: Beam AB is a cantilever beam. Beam BC is a simply supported beam. The concentrated load…
Q: 11-17 A beam is loaded and supported as shown in Fig. P11-17. Determine the reaction at support B.…
A: Given Data: The rectangular load is w = 300 lb/ft. The span of the rectangular load is L1 = 6 ft.…
Q: The assembly consists two different sections with diameter of 40 mm and 20 mm, respectively. If the…
A:
Q: The compound beam is pin - supported at C and supported by rollers at A and B. There is a hinge…
A:
Q: The A-36 steel pipe has an outer radius of 20 mm and an inner radius of 15 mm. If it fits snugly…
A: For the given steel pipe connection and the load applied, the reactions at the fixed ends are as…
Q: The beam is subjected to the distributed load and the couple shown. If Mis slowly increased starting…
A: Answer: Mo = 5030.67 lb•ft.
Q: R16-1. The shaft supports the two pulley loads shown. Using discontinuity functions, determine the…
A: Given data: The load on the left pully of point A is WL = 900 N. The load on the right pully of…
Q: F16-12. Determine the Teaction at the foller support B if it settles 5 mm. E – 200 GPa and I -…
A: Given; W = 10 KN / m E = 200*109 GPa I = 65.0*10-6 m4 Solving UDL; W = 10*12 = 120 KN at 6m…
Q: The beam is subjected to the distributed load and the couple shown. If Mis slowly increased starting…
A: To determine the value of M for which the contact at B will change from lower surface to upper…
Q: The truss consists of three members, each made from A-36 steel and having a cross-sectional area of…
A: Given that each member is made up of A-36 steel, whose Young's modulus, E=2.9×107 psi Displacement…
Q: *9_36. The A-36 steel pipe has an outer radius of 20 mm and an inner radius of 15 mm. If it fits…
A: Given data: The outer radius, Ro = 20 mm. The inner radius, RI = 15 mm. As it is given that both…
Q: 11-86. If the overhanging beam is made of wood having the allowable tensile and compressive stresses…
A: Free body diagram of the given beam ∑MA = 0By×2 = 3PBy = 3P2∑Fy = 0Ay+By = PAy = P-ByAy = P-3P2Ay…
Q: 13-50. The C-frame is used in a riveling machine. II the force at the ram on the clamp at Ds P=8 EN,…
A: Given Applied Load = 8 kN To find The stress distribution
Q: The beam is subjected to a load F = 275 N and is supported by the rope and the smooth surfaces at A…
A: Fig: FBD of the beam
Q: Determine the reaction at the roller support and the deflec-tion at point D if a is equal to L/3.
A: Given: Propped cantilever beam as shown in figure To determine: Reaction at the roller support…
Q: The two A-36 steel bars have a thickness of 1 in. and a width of 4 in. They are designed to act as a…
A: let the density of the A-36 steels bars are ;ρ=7.85×103 kg/m3 ; -------From standard valueE=200…
Q: *RI6-8. Using the method of supeīposition, determinc the magnitude of Mo in terms of the distributed…
A: Given the deflection at the center of the beam is zero.∆C=0 Let ∆C1,∆C2,∆C3 are the deflections at C…
Q: The load on a cantilever beam AB has a triangulardistribution with maximum intensity q0 (seefigure).…
A: Given Load = qo Length = L Find Angle of rotation Deflection
Q: 10' o C 30 10' 2000lb 5' A -30-
A:
Q: *11-72. The reactikın of the ballast on the milway tie can be assumed uniformly distributed over its…
A: Apply condition of equilibrium to find the udl load ∑Fy=075+75-w(2.4)=0w=150/2.4=62.5 KN/m
Q: Determine the reactions at the supports. Assume A and B are pins. EI is constant.
A: In above problem A and B are pin supports. It means pin reaction offers two reactions one is…
Q: 17-15. Determine the maximum load P the frame can support without buckling member AB. Assume that AB…
A: Given Data: Yield point stress, σy=360MPa Modulus of Elasticity, E=200GPa The force in the member…
Q: 1. The beam is subjected to a load F= 400 N and is supported by the rope and the smooth surfaces at…
A: Solution: GIven Data: F = 400 N
The compound beam segments meet in the center using a smooth contact (roller). Determine the reactions at the fixed supports A and B when the load P is applied. EI is constant.
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- 5-52 A cylinder with a conical cavity and a hemispheri- cal cap is shown in Fig. P5-52. Locate the centroid of the composite volume if R = 200 mm, and h = 250 mm. R10-128 Determine the second moments Ix and Iy for the shaded area shown in Fig. P10-128. y = 200x 40 mm Fig. P10-128can you please find the solution for que no:9-43
- 5-50 A cylinder with a hemispherical cavity and a con- ical cap is shown in Fig. P5-50. Locate the center of mass of the composite volume if the cylinder is made of steel (p = 7870 kg/m) and the cap is made of aluminum (p = 2770 kg/m³). IR RDotormine they coorcinate of the controid of the shaded arca. y 53 Answer: 7-4.14. Calculate I,,Iy,Iyy for the symmetrics Z-section of Figure P4.8
- -10 -9 8 7 6 5 4 3 2 Table Part rectangle triangle x = Complete the table below and detemine the coordinates of the centroid of the composite shape. Consider the shape to be made up of a rectangle and a triangle with a circle removed. The circular hole has a diameter of 5 in, centered at (-1, 5). circle Σ Centroid 104 -9- 8 O 2 -1- A Ai IS y = Ti 4 Qx A 5 6 7 8 9 10 11 Yi A₁ Ti Aiyi10-129* Determine the second moments Iz and I, for the shaded area shown in Fig. P10-129. x= 4y - y? 4 in. Fig. P10-129Consider two iron spheres, each of diameter 295 mm, which are just touching. At what distance r from the center of the earth will the force of mutual attraction between the contacting spheres be equal to the force exerted by the earth on one of the spheres? Answer: r = (107)km