A cylindrical specimen of a metal alloy (1.48x10^1) mm in diameter and (1.268x10^0) m long is to be pulled in tension.
Calculate the force (in N) necessary to cause a (1.9000x10^-2) mm
reduction in diameter. Young's modulus and Poisson's ratio of the
metal are (1.122x10^2) GPa and (3.330x10^-1) , respectively.
Assume that the deformation is elastic.
As always, use scientific notation in the form X.YZ x 10^n
Note: Your answer is assumed to be reduced to the highest power possible.
A cylindrical specimen of a metal alloy (1.48x10^1) mm in diameter and (1.268x10^0) m long is...
A cylindrical specimen of some metal alloy 6.8 mm in diameter is stressed in tension. A force of 1720 N produces an elastic reduction in specimen diameter of 0.0044 mm. Calculate the elastic modulus (in GPa) of this material if its Poisson's ratio is 0.35.
A cylindrical bar of metal having a diameter of (4.726x10^0) mm and a length of (6.0264x10^2) mm is deformed elastically in tension with a force of (1.16x10^4) N. Given that the elastic modulus and Poisson's ratio of the metal are (1.3007x10^2) GPa and (3.3600x10^-1) , respectively, determine the change in diameter of the specimen (in mm). Indicate an increase in diameter with a positive number and a decrease with a negative number. As always use scientific notation in the form...
Problem 7.17 A cylindrical specimen of some metal alloy 11.0 mm (0.4331 in.) in diameter is stressed elastically in tension. A force of 14300 N (3215 lbf) produces a reduction in specimen diameter of 7 × 10-3 mm (2.756 × 10-4 in.). Compute Poisson's ratio for this material if its elastic modulus is 100 GPa (14.5 × 106 psi).
Problem 6.17 A cylindrical specimen of some metal alloy 10.3 mm (0.4055 in.) in diameter is stressed elastically in tension. A force of 14800 N (3327 lbf) produces a reduction in specimen diameter of 5x 10-3 mm (1.969 x10-4 in.). Compute Poisson's ratio for this material if its elastic modulus is 100 GPa (14.5x 106 ps the tolerance is +/-290
on 5 Consider a cylindrical specimen of some hypothetical metal alloy that has a diameter of 10.0 mm. A tensile force of 1500 N produces an elastic reduction in diameter of 6.7 x 10 mm. Compute the elastic modulus of this alloy, given that Poisson's ratio is 0.35. Express the answer in GPa to three significant figures. 5.00 out Answer: 99.8 Lion
A cylindrical specimen of some metal alloy having an elastic modulus of 121 GPa and an original cross-sectional diameter of 4.7 mm will experience only elastic deformation when a tensile load of 2400 N is applied. Calculate the maximum length of the specimen before deformation if the maximum allowable elongation is 0.41 mm.
A cylindrical specimen of some metal alloy having an elastic modulus of 120 GPa and an original cross-sectional diameter of 3.0 mm will experience only elastic deformation when a tensile load of 2400 N is applied. Calculate the maximum length of the specimen before deformation if the maximum allowable elongation is 0.47 mm.
6 6.19 Consider a cylindrical specimen of some hypothetical metal alloy that has a diameter of 8.0 mm (0.31 in), A tensile force of 1000 N (225 lb) produces an elastic reduction in diameter of 2.8 x 101mm (1.10 x10 in,). Compute the modulus of elasticity for shis alloy, given that Poisson's ratio is 0.30
For a certain alloy, the yield strength is (1.03x10^2) MPa and the modulus of elasticity is (1.765x10^2) GPa. If a wire specimen of this alloy is pulled in tension, how much change in length can be achieved (in mm) without causing plastic deformation? The original length is (7.799x10^2) mm. As always, use scientific notation in the form X.YZ x 10^n
Problem #1 A cylindrical rod of copper (E 110 GPa) having a yield strength of 240 MPa is to be subjected to a load of 6660 N. If the length of the rod is 380 mm, what must the diameter be to allow an elongation of 0.50 mm? A cylindrical specimen of some alloy 8 mm in diameter is stressed elastically in tension. A force of 15,700 N produces a reduction in the specimen diameter of 5 10-3 mm. Compute...