A graphene rod and a brass rod have the same length and diameter and are subjected to the same force. If the graphene rod stretches by 2.60X 10^-6 m, by what amount will the brass rod stretch? Young's modulus for graphene = 1.00x 10^12 N/m2; for brass = 9.00X 10^10 N/m2.
A graphene rod and a brass rod have the same length and diameter and are subjected...
A diamond rod and a tungsten rod have the same length and diameter and are subjected to the same force. If the diamond rod stretches by 2.30 times 10^-6 m, by what amount will the tungsten rod stretch? Young's modulus for diamond = 1.22 times 10^12 N/m^2; for tungsten = 3.60 times 10^11 N/m^2. A spider of mass 7.0 times 10^-4 kg hangs from a 75.4-cm-long thread whose diameter is 2.0 times 10^-3 mm. Young's modulus of thread is 3....
can be represented by a uniform rod 38.0 cm in length and 2.10 cm in radius. Assume Young's modulus for bone under compression is 9 x 10 N/m2 rod and a steel rod have the same length and diameter and are steel rod stretch? Young's modulus for graphene 1.00 x 1012 N/m2; for steel- 2.00 x101 N/m2 2
Steel Young's Modulus (Y) 20 X 1010 N/m2 Shear Modulus (S) 8.1 X 1010 N/m2 Bulk Modulus (B) 16 X 1010 N/m2 The table to the above represents various properties of steel. You have steel wire 4.4 meters in length that stretches 0.12 cm when subjected to a force of 300 N. 1)What is the diameter of the wire? d1 =__________ cm 3)What would the diameter of the wire be if you wanted the wire to stretch 0.06 cm less...
A shearing force of 1250 N is applied to a brass rod with a length of 25.0 m and radius r = 1.27 cm. The shear modulus of brass is 35.0 x 109 N/m2. As a result the rod is sheared through a distance in mm of:
2. A brass rod 5 m long and 0.01 m in diameter increases in length by 0.03 m whern its temperature is increased by 500° C. A similar brass rod of length 10 m has a diameter of 0.02 m. By how much will this rod's diameter increase if its temperature is increased by 1000o C? Brass rod
What is the change in side length of a brass rod 3 mm in diameter right before plastic deformation? The specific brass alloy has a yield strength of 125 MPa, a Young’s modulus of 100 GPa, and a Poisson’s ratio of 0.331.
The 1.25" diameter steel rod is subjected to the load shown. Determine the state of stress at point D (located at the top of the rod and on the z-axis), determine the associated strains. Let F = 12 lb and 0 = 45°. The force F is acting in a plane parallel to the x-y plane. Shear modulus of elasticity: G = 11.2 x 106 psi Young's modulus: E = 29.0 x 106 psi 1.25 in 3 in.
A copper (Young's modulus 1.1 x 1011 N/m2) cylinder and a brass (Young's modulus 9.0 x 1010 N/m2) cylinder are stacked end to end, as in the drawing. Each cylinder has a radius of 0.38 cm. A compressive force of F = 8600 N is applied to the right end of the brass cylinder. Find the amount by which the length of the stack decreases.
Q1. A circular rod of 12 mm diameter was tested for tension. The total elongation on a 300 mm length was 0.22 mm under a tensile load of 17 KN. Find the value of E. (2.5 Marks) Answer: Q2. A prismatic bar has a cross section of 25 mm x 50 mm and a length of 2m under an axial force of 90 KN. The measured elongation of the bar is 1.5 mm. Compute the tensile stress and strain in...
1 pts A tensile stress of 50 kPa (1 kPa 1000 N/m) acting on 20-cm-long muscle stretches the muscle by 1 mm. what is the Young's modulus for this muscle? O10,000 kPa We must know cross-sectional area (or diameter) of muscle to find this. 250 kPa O 1,000 kPa 1 pts Question 3 The quadriceps the biceps muscle in the upper arm. Assuming that Young's elastic modulus is the same of both muscles, if the same tensile force were applied...