Find the axial displacement of a rod given properties L(length), A (cross sectional area), E (Modulus)...

A charged nonconducting rod, with a length of 1.25 m and a cross-sectional area of 5.66...

A charged nonconducting rod, with a length of 1.25 m and a cross-sectional area of 5.66 cm2, lies along the positive side of an x axis with one end at the origin. The volume charge density ? is charge per unit volume in coulombs per cubic meter. How many excess electrons are on the rod if ? is (a) uniform, with a value of -3.26

Consider a steel guitar string of initial length 9m and cross-sectional area 2.3mm2. The Young's modulus...

Consider a steel guitar string of initial length 9m and cross-sectional area 2.3mm2. The Young's modulus of the steel is Y=2.00×1011Pa. How far would such a string stretch under a tension of 1650N? ?L= I can't seem to get this problem even with other examples. Please solve and show all steps and if possible explanation. Thanks!

Given a solenoid of total number of windings, N, of length, l, and circular cross sectional...

Given a solenoid of total number of windings, N, of length, l, and circular cross sectional area, A. A current, I, is flowing through the wire winding that is made of copper. Assume that the copper has a resistivity p and the charge carrier density, n. Assuming that the winding wire is circular in shape with a cross-sectional area, a, and the adjacent wires are closely spaced together so the wire diameter is simply d=l/N. The volume of solenoid space...

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.

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)...

1) A cylindrical copper rod of length 2 m and cross-sectional area of 5 cm^2 is...

1) A cylindrical copper rod of length 2 m and cross-sectional area of 5 cm^2 is insulated to prevent heat loss through its surface. The ends are maintained at a temperature difference of 100 C by having one end in a water-ice mixture and the other in a boiling water/steam mixture. If you initially have 10 g of ice on the one end and lots of steam on the other, how long does it take to melt the ice? 2)...

A box section of length L = 6 m and cross-sectional dimensions of a = 54mm,...

A box section of length L = 6 m and cross-sectional dimensions of a = 54mm, b = 32 mm has wall thickness t = 3 mm. This box section is used as a part of structure, and it is subject to a load along its longitudinal axis. The K factor for the end conditions of the column is 0.25 . Calculate the buckling load of the column, which is made of a material with an elastic modulus of E...

Two steel rods each of cross sectional area 500mm2, and an aluminium alloy rod, of cross...

Two steel rods each of cross sectional area 500mm2, and an aluminium alloy rod, of cross sectional area 600 mm2 are cut to a length of 3m and attached to rigid end plates to form a composite member. If a tensile force of 100kN is applied to the member and at the same tie the temperature of the system is lowered by 20℃, determine the force developed in each of the rods and the extension of the member. What further...

A bar of some material has a cross sectional area of A and an original length...

A bar of some material has a cross sectional area of A and an original length of L. A tensile force of F is applied to the bar, producing a deformation of ΔL. A bar with the same original length but with twice the cross sectional area has the same force of F applied to it. The deformation of the second bar is Group of answer choices 0.5 (ΔL) 0.25 (ΔL) ΔL 2 (ΔL) 4 (ΔL)

A brass rod and a lead rod, each 0.250 mm long and each with cross-sectional area...

A brass rod and a lead rod, each 0.250 mm long and each with cross-sectional area 2.00×10−4m22.00×10−4m2, are joined end to end to make a composite rod of overall length 0.500 mm. The free end of the brass rod is maintained at a high temperature, and the free end of the lead rod is maintained at a low temperature. The temperature at the junction of the two rods is 185.0∘C∘C and the heat current due to conduction through the composite...