determine the maximum tensile stress (MPa) developed in the plate.
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Two identical plates of 55 mm wide and 4 mm thick is connected by a square pin with side dimension 11 mm. If a plate is subjected to a tensile force of 20 kN, determine the maximum tensile stress (MPa) developed in the plate.
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- The rigid, horizontal slab is attached to two identical copper rods. There is a gap ∆ = 0.18 mm between the middle bar, which is made of aluminum, and the slab. Neglecting the mass of the slab, calculate the stress in each rod when the temperature in the assembly is increased by 60 oC. Use the following data:The plates in the figure below are each 3 inches by 0.5 inches in cross section. If the hole in each plate is 13/16 in diameter and the load p is 20 kips, determine the average tensile stress in the plate.50% Due to loading, the plate is deformed into the dashed shape shown in the figure. Assume a = 32 in., b= 40 in., δ1= 0.225 in., δ2= 0.075 in. Determine the average normal strain along the side AB? Determine the average shear strain in the plate at A relative to the horizontal and vertical axes?
- Due to loading, the plate is deformed into the dashed shape shown in the figure. Assume a = 39 in., b= 33 in., δ1= 0.1625 in., δ2= 0.1 in. Determine the average normal strain along the side AB?in micro rad And answer in right and clear way Determine the average shear strain in the plate at A relative to the horizontal and vertical axes?Bars (1) are made of a polyimide plastic that has an elastic modulus of 3.8 GPa. Bar (2) is a nylon material that has an elastic modulus of 1.9 GPa. Each bar has a cross-sectional area of 900 mm2. Using L = 395 mm and Δ = 4.6 mm, what magnitude of load P will cause the normal stress in each bar to be the same value?An 18-m-long steel wire of 10-mm diameter is to be used in the manufacture of a prestressed concretebeam. It is observed that the wire stretches 55 mm when a tensile force P is applied. Knowing that E=250GPa, determine (a) the magnitude of the force P, (b) the corresponding normal stress in the wire
- Compute the stress distribution of the beam shown in the figure at mid-section. Cross-sectional dimensions of the beam is 14in X 40in. If the tensile capacity is 1ksi, comment on stability of the beam.A vertical cylindrical tank is 6 ft. in diameter and 10 ft. high. It sides are held in position by means of two hoops, one at top and one at bottom. The tank is filled with water up to 9 ft. Determine the tensile stress at the top?A flat bar with a cross section of 8 mm by 50 mm elongates 2.1 mm in a length of 1.5 m as a result of an axial load of 50 kN. The proportional limit of the material is 240000 KN/sq m. Determine the axial stress in the bar and the modulus of elasticity
- The tank shown in the figure is fabricated from a 10 mm steel plate. Determine the longitudinal and tangential stress developed by an internal pressure of 1.2 MpaWhat strain will be produced by a stress of 20 x 106 N/m2, for a given modulus of elasticity 100GPa. a. 0.000002 b. 0.0002 c. 0.002 d. 0.0008A cantilever beam, 80 mm wide by 240 mm high and 8 m long, carries a load that varies uniformly from zero at the free end to 1500 N/m at the wall. Determine the magnitude of the stress in a fiber 70 mm from the top of the beam at a section 6 m from the free end. Answer must be in MPa.