P8.054 A 40-mm-diameter steel rod is formed into a machine part with the shape shown. A...
Q.3. A hollow steel shaft ACB of outside diameter 50 mm and inside diameter 40 mm is fixed at ends A and B. Horizontal forces P are applied at the ends of a vertical arm that is welded to the shaft at point C. The allowable shear stress in the shaft is tall 45 MPa. Determine the maximum allowable force P 200 mm 200 mm 600 mm 400 mm
Chapter 1, Reserve Problem 003 Pipe (2) is supported by a pin at bracket C and by tie rod (1). The structure supports a load P at pin B. Tie rod (1) has a diameter of 12 mm and an allowable normal stress of 130 MPa. Pipe (2) has an outside diameter of 58 mm, a wall thickness of 6 mm, and an allowable normal stress of 95 MPa. Assume x1 = 2.8 m, x2 = 1.3 m, and y1...
Part 1 The 225 x 225 x 1,350-mm oak [E = 12 GPa) block (2) shown is reinforced by bolting two 5 x 225 x 1,350 mm steel [E = 200 GPa) plates (1) to opposite sides of the block. A concentrated load of 410 kN is applied to a rigid cap. Assume P = 410 kN, L = 1.35 m. Determine (a) the normal stresses in the steel plates (1) and the oak block (2). (b) the shortening of...
Not Correct A 11-mm-diameter steel [E 215 GPa] rod (2) is connected to a 24-mm-wide by 10 L,-0.72 m and L2-1.36 m. Determine the force p required to stretch the assembly 7.3 mm. ck rectangular aluminum [E 70 GPa] bar (1), as shown. Assume Answer: P- the tolerance is +/-2% Click if you would like to Show Work for this question: kN. Open Show Work LINK TO TEXT
A concentrated load P is applied to the upper end of a 0.86-m-long pipe. The outside diameter of the pipe is D-106 mm and the inside diameter is d-98 mm. (a) Compute the value of Q for the pipe. (b) If the allowable shear stress for the pipe shape is 75 MPa, determine the maximum load P that can be applied to the cantilever beam. Answers: (a) Q = (b) P = kN A concentrated load P is applied to...
'BACK STANDARD VTEW PRİNTER VERSİON P9.029 G0 Multipart Part 1 The cantilever beam shown is subjected to a concentrated load of P- 125 kN. The cross-sectional dimensions of the t ectangular tube shape are shewn, where b- 150 mm, d 250 mm -8 mm, and 60 mm. Determine (a) the stear stress at point K, located d- b) the maximum horizontal shear stress in the rectangular tube shape. which s loceted d - 60 mm below the cent of the...
A 25mm diameter steel rod 1.5m long is being used in a rigid structure. For this steel the Ultimate Tensile Stress is 410 MPa Young’s Modulus is 200 GPa The rod is to be subjected to a tension load of 40 kN. Design requirements are that the rod cannot extend by more than 0.5 mm and that there is a Factor of Safety of 5 for the tensile stress. Determine whether or not the rod is adequate for the task:...
A tensile force of 120 kN is applied on a 0.02-m diameter and 2-m long rod. After applying the load, the diameter of the rod decreases to 0.01998 m and the length increases to 2.01 m. The engineering stress on that rod is most nearly: PLEASE SHOW ALL WORK. A tensile force of 120 leN is applied on a 0.02-m diameter and 2-mm long rod. After applying the load, the diameter of the rod decreases to 0.01998 m and the...
A hollow circular steel shaft has a 100-mm outside diameter and a 75-mm inside diameter. Calculate the allowable torque that can be transmitted if the allowable shear stress is 62 MPa. When the allowable torque is applied, calculate the shear stress at the inner surface of the shaft.
Pipe (2) is supported by a pin at bracket C and by tie rod (1). The structure supports a load P at pin B. Tie rod (1) has a diameter of 11 mm and an allowable normal stress of 165 MPa. Pipe (2) has an outside diameter of 48 mm, a wall thickness of 7 mm, and an allowable normal stress of 75 MPa. Assume x1 = 2.9 m, x2 = 1.5 m, and y1 = 3.9 m. Determine the...