QUESTION 44.24.1The ratio between the outside diameter and inside diameter of a pipe is 2,5 andthe length is 400 mm, when the pipe is not subjected to any load. When a tensileload of 200 kN is applied to the pipe, its length increases by 0,195 mm. TheYoung's modulus of elasticity for a pipe is 188 GPa. Calculate the insidediameter and outside diameter of a pipe.The following results were obtained by means of a tensile test on a carbonsteel specimen, having an original cross-sectional area of 20 mm² and thegauge length is 50 mm.Elastic limit load:Elongation at the elastic limit: =0,06125 mm=4 900 NMaximum load:=7 650 NLoad at fracture:=5 050 NElongation at failure:=15,2 mmCross-section area at failure:7,95 mm²Calculate the following:4.2.1The stress at the elastic limit.4.2.2The maximum stress.4.2.3The percentage elongation.4.2.4The percentage reduction in area.

Question 4.1Given:Ratio of outside diameter (D) to inside diameter (d) is 2.5.Length of the pipe (L)…

Answered: QUESTION 4 4.2 4.1 The ratio between…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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The error in a measurement due to strain when using a tape measure depends on the material that it is made of. For a tape with a cross section of 10 mm by 0.7 mm, calculate how much error is introduced in inches into the measurement at a 300 ft length if the tape is pulled with 80 N and if the tape is made of: a) mild steel (E = 30 x 10^6 psi), b) polycrystalline aluminum (E = 10 x 10^6 psi) c) fiberglass composite (E = 3.5 x 10^6 psi in the long direction)
solve first one only and use b h and x to find the strain
5. Consider a cylindrical specimen of a steel alloy (Figure 6.22) 10 mm in diameter and 75 mm long that is pulled in tension. Determine its elongation when a load of 20,000 N is applied. Stress (MPa) 600 500 400 300 200 100 0 0.00 0.04 Stress (MPa) 500 400 300 200 100 0.000 0.002 0.004 0.006 0.08 Strain Strain 0.12 0.16 0.20 Figure 6.22 Tensile stress-strain behavior for a steel alloy.
b) A 1.25 m long cable has a diameter 3.50 mm with a Young's Modulus, E, of 9.75 x 10⁹ N/m². When the wire is placed under tension, it experiences a stress of 202.52 x 106 N/m², the length of the cable extends by 36.35 mm. Calculate the force that the cable experiences under tension and the strain energy density (U/V) due to deformation. Give your answers in newtons (N) to 2 decimal places for the force; and in joules per cubic metre (J/m³) for the strain energy density to 2 decimal places. Assume the cable is solid and the material is homogeneous. c) Figure Q1c shows a bracket on rollers that allow the bracket to move along a beam in the horizontal direction. A force F₁ of 2625 N acts at point A where the angle between F, and the x-axis is 100. If force F₂ acts at an angle a = 400 between F2 and the y-axis: (i) Determine the magnitude of F2 necessary to maintain bracket on horizontal equilibrium. (ii) Determine the vertical force at A acting along the y-axis. Give your answers to the…
When a bar of 22 mm diameter is subjected to an axial pull of 60 kN the extension on the 49 mm gauge length is 0.1 mm and there is a decrease in diameter of 0.013 mm. Calculate the Young's Modulus. Provide your answer in GN/m2 to the nearest whole number.

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