Calculate the maximum reduction in cross-sectional area in frictional wire drawing of a rigid-linearly strain-hardening material...

The conductivity of a cylinder of length L and cross-sectional area A grows linearly with the...

The conductivity of a cylinder of length L and cross-sectional area A grows linearly with the distance, assuming the value s0 at one end and s1 at the other. Calculate total cylinder resistance.

Determine maximum percentage reduction in wire drawing for 1100-0 Aluminum. Consider the die angle of 15...

Determine maximum percentage reduction in wire drawing for 1100-0 Aluminum. Consider the die angle of 15 degrees and coefficient of friction between the die and the material is 0.13 Ignore redundant work and the back or front tension.

A copper wire is 8.00 m long, and has a cross-sectional area of 1.00 × 10–4...

A copper wire is 8.00 m long, and has a cross-sectional area of 1.00 × 10–4 m2. This wire forms a 1turn loop in the shape of a square and is then connected to a battery that applies a potential difference of 0.100 V. If the loop is placed in a uniform magnetic field of magnitude 0.400 T, what is the maximum torque that can act on it? The resistivity of copper is 1.70 × 10–8 Ω · m. Define...

A copper wire is 8.00 m long, and has a cross-sectional area of 1.00 × 10-4...

A copper wire is 8.00 m long, and has a cross-sectional area of 1.00 × 10-4 m2. This wire forms a 1turn loop in the shape of a square and is then connected to a battery that applies a potential difference of 0.100 V. If the loop is placed in a uniform magnetic field of magnitude 0.400 T, what is the maximum torque that can act on it? The resistivity of copper is 1.70 × 10-8 Ω • m. Define...

Calculate the resistance of a pure silicon wire, 3 cm long, and with a cross sectional...

Calculate the resistance of a pure silicon wire, 3 cm long, and with a cross sectional area of 2 mm x 2 mm, at room temperature. Repeat for a sample of silicon with the same geometry but doped with arsenic to a concentration of 10^18 cm^3. Assume that the carrier mobilities are 1500 cm2/Vs and 450 cm2/Vs for electrons and holes, respectively.

Femur is the main bone in the upper leg. Assume that the minimum cross-sectional area of...

Femur is the main bone in the upper leg. Assume that the minimum cross-sectional area of the femur of a human adult is 6x10-4 m2 . The weight of the human is 70 kg. The ultimate compression strength for bone is 17 x 107 N.m-2. The Young’s modulus for bone in compression is 0.9 x 1010 N.m-2. What is the compression load at which fracture occurs? Comment on the size of this force and compare it with the weight of...

A steel wire has the following properties: Length = 5.00 m Cross-sectional area = 4.60×10−2 cm2...

A steel wire has the following properties: Length = 5.00 m Cross-sectional area = 4.60×10−2 cm2 Young's modulus = 2.0×1011Pa Shear modulus = 0.84×1011Pa Proportional limit = 3.60×108Pa Breaking stress = 11.0×108Pa The proportional limit is the maximum stress for which the wire still obeys Hooke's law (point B in (Figure 1)). The wire is fastened at its upper end and hangs vertically. A) How great a weight can be hung from the wire without exceeding the proportional limit? B)...