A cable with diameter 4 mm is made from a material with Young’s modulus of 198...

A cable with a diameter of 6 mm is subject to a maximum tensile force of...

A cable with a diameter of 6 mm is subject to a maximum tensile force of 9 kN. The cable must not extend by more than 0.5% and must not yield. Properties of four materials (W, X, Y and Z) are listed in the table below. Which of materials in the table above are suitable for the cable? Material Yield strength (MPa) Tensile strength (MPa) Young’s Modulus (GPa) W 200 450 195 X 320 400 45 Y 640 700 85...

The elastic modulus, yield strength and ultimate strength of a certain material are 110 GPa, 240...

The elastic modulus, yield strength and ultimate strength of a certain material are 110 GPa, 240 MPa and 265 MPa, respectively. If a cylindrical bar of this material 380 mm long is subjected to a uniaxial tension test and its length is increased by an amount of 0.50 mm under a tensile load of 6660 N. At the same time its diameter decreased by 0.28 mm. Calculate; a) The initial diameter of the bar,

A steel wire is used to lift heavy object. The cable has a diameter of 10.25...

A steel wire is used to lift heavy object. The cable has a diameter of 10.25 mm and an initial length of 29.5 m. If the cable stretches 2.50 mm, what is the mass of the heavy object? Use 20.0 x 1010 Pa for Young’s modulus for steel. Give your answer in kg and with 3 significant figures.

A steel wire is used to lift heavy object. The cable has a diameter of (5.25...

A steel wire is used to lift heavy object. The cable has a diameter of (5.25 + A) mm and an initial length of (24.5 + B) m. If the cable stretches 2.50 mm, what is the mass of the heavy object? Use 20.0 x 1010 Pa for Young’s modulus for steel. Give your answer in kg and with 3 significant figures. A=0 B=1

Material that has yield strength 100 Mpa , engineering uts 125 Mpa, Young’s mod 40 Gpa...

Material that has yield strength 100 Mpa , engineering uts 125 Mpa, Young’s mod 40 Gpa density 3 g/cm^3 and true uts 180. What would the mass of a cylindrical member be if the height is 5 m and needs to support tensile load 50kn before it has plastic deformation.

a brass sample has a yield strength of 345 MPa and a Young’s modulus of 103...

a brass sample has a yield strength of 345 MPa and a Young’s modulus of 103 GPa and is loaded to 370MPa, without necking, before being unloaded. Next, this same specimen is loaded to 300MPa. What is the strain resulting from this load?

(a)        Modulus of resilience, Uy is obtained from the strain energy density and is influenced by...

(a)        Modulus of resilience, Uy is obtained from the strain energy density and is influenced by Young’s Modulus, E and yield strength, sy of the materials. If the stainless steel AISI 301 (annealed) having the value of E = 190 GPa and sy = 260 MPa, determine the modulus of resilience for the material and sketch the modulus of resilience by stress-strain curve.            

Problem. A cylindrical specimen of a hypothetical metal having a diameter of 7.671 mm and a...

Problem. A cylindrical specimen of a hypothetical metal having a diameter of 7.671 mm and a gauge length of 251.905 mm is pulled in tension. Use the load–elongation characteristics shown in the following table to complete parts (a) through (f). (a) Plot the data as stress (MPa) versus strain (b) Compute the modulus of elasticity in GPa (c) Determine the yield strength at a strain offset of 0.002 (d) Determine the tensile strength of this alloy (e) What is the...

4. (a) Illustrate the stress-strain curve in elasticity. (b)A Steel rod with Young’s modulus Y=200 GPa...

4. (a) Illustrate the stress-strain curve in elasticity. (b)A Steel rod with Young’s modulus Y=200 GPa has a circular cross section and is 10 m long. Determine the minimum diameter if the rod must hold a 30 kN tensile force without deforming more than 5 mm. Assume the steel stays in the elastic region. Note, 1 GPa = 10^9 Pa.

(A = 3, B = 9) A steel wire is used to lift heavy object. The...

(A = 3, B = 9) A steel wire is used to lift heavy object. The cable has a diameter of (5.25 + A) mm and an initial length of (24.5 + B) m. If the cable stretches 2.50 mm, what is the mass of the heavy object? Use 20.0 x 1010 Pa for Young’s modulus for steel. Give your answer in kg and with 3 significant figures.