For this problem we have two load distributions: A load point of 1uC on the axis...
For this problem we have two load distributions: A load point of 1uC on the axis of y and at y = -2m and an infinite line of linear load of pL that passes through points a (6m, 4m, 4m) and B ( -6m, 4m, -4m) a) Draw a picture of the two load distributions indicated above. Indicate axes and values clearly. b) Determine the value of the linear load density, pL, so that the flow density component in y is 0 in (0.1m, 0)
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For this problem we have two load distributions: A
load point of 1uC on the axis...
For this problem we have two load distributions: A load point of 1uC on the axis...
For this problem we have two load distributions: A load point of 1uC on the axis of yy at y = -2m and an infinite line of linear load of pL that passes through points a (6m, 4m, 4m) and B ( -6m, 4m, -4m) a) Determine the value of the linear load density, pL, so that the flow density component in y is 0 in (0.1m, 0) For this problem we have two load distributions: A load point of...
For this problem, we have two load distributions: a load point of a uC on the...
For this problem, we have two load distributions: a load point of a uC on the axis of y at y = -2m and an infinite load line with linear load density of pL passing through points A (6m, 4m, 4M) and B (-6m, 4m, -4m). a. Draw a picture of the two load distributions indicated above. Indicate axes and values clearly. b. Determine the value of the linear load density, pL, so that the component of the flux density...
1. For this problem we have two load distributions: an infinite plane of charge at y=...
1. For this problem we have two load distributions: an infinite plane of charge at y= -3m with surface charge density of ρS and an infinite line of charge with linear charge density of ρL = 1 μC/m that passes through the points A (4m, 3m, 2) and B (-4m, -3m, -2m). a.) Draw a picture of the two load distributions indicated above. Indicate axes and values clearly. b.) Determine the value of the surface charge density, ρS, so that...
For this problem, we have two load distributions: an infinite plane of charge at x =...
For this problem, we have two load distributions: an infinite plane of charge at x = -2m with surface charge density of 300 uC/m^2 and an infinite line of charge with linear charge density of pL passing through points A (2m, 2m, 0) and B (2m, 2m, -2m). a. Draw a picture of the two load distributions indicated above. Indicate axes and values clearly. b. Determine the value of the surface charge density, pL, so that the component of the...
Help with question 2 1. what is the electric field at the centre (r = 0)...
Help with question 2
1. what is the electric field at the centre (r = 0) of a hemisphere bounded by r = a, 0 < θ < π/2 and 0 < φ < 2m, that carries a uniform volumetric charge density P3(The charges are distributed in this hemispherical 3D space. Use spherical coordinates due to the hemispherical geometry.) Consider some charges that are lined up in a straight line. This line of charge carries a uniform linear charge density....
2. Superposition (35%) In this problem we consider the electric field generated by combinations of some...
2. Superposition (35%) In this problem we consider the electric field generated by combinations of some familiar geometries. (Unless you are told otherwise, assume that all charge distribu- tions in this problem are fixed, that is the charges cannot move.) (a) Consider an infinite line of charge with linear charge density 1. Assume this line of charge lies on the z-axis. What is the electric field due to this charge? (b) Now let's consider two infinite lines of charge. Each...
Figured out the first two. Need the rest! An infinite line of charge with charge density...
Figured out the first two. Need the rest! An infinite line of charge with charge density λ1 = -4 μC/cm is aligned with the y-axis (a) What is Ex(P), the value of the x-component of the electric field produced by by the line of charge at point P which is located at (x,y) = (a,0), where a = 7.9 cm? Answer: -91139240.51 (b) What is Ey(P), the value of the y-component of the electric field produced by by the line...
1. what is the electric field at the centre (r = 0) of a hemisphere bounded...
1. what is the electric field at the centre (r = 0) of a hemisphere bounded by r = a, 0 < θ < π/2 and 0 < φ < 2m, that carries a uniform volumetric charge density P3(The charges are distributed in this hemispherical 3D space. Use spherical coordinates due to the hemispherical geometry.) Consider some charges that are lined up in a straight line. This line of charge carries a uniform linear charge density. Let's make Pl =...
help Previous Problem List Next (1 point) A flexible cable suspended between two vertical supports is...
help
Previous Problem List Next (1 point) A flexible cable suspended between two vertical supports is hanging under its own weight. The weight of a horizontal roadbed is distributed evenly along the x-axis with the density ρ 0.7 lb/ft. The coordinate system is chosen so that they-axis passes through the lowest point Pi and the x axis is a -1.5 ft below Pi, as shown in the picture. If the absolute value of tension force in the cable at point...
7. We know that well-defined preferences over two goods have the properties that () indifference curves...
7. We know that well-defined preferences over two goods have the properties that () indifference curves are negatively sloped, and (ii) that indifference curves are convex (so that chords between two points on the indifference curve lie in the set ((c, y) such that (c,y)(coyo) when (co. o) is a point on the indifference curve). Suppose that good y is "clean air" and good c is consumption of all other goods. This problem gets you to determine what these two...
Help with question 2
1. what is the electric field at the centre (r = 0) of a hemisphere bounded by r = a, 0 < θ < π/2 and 0 < φ < 2m, that carries a uniform volumetric charge density P3(The charges are distributed in this hemispherical 3D space. Use spherical coordinates due to the hemispherical geometry.) Consider some charges that are lined up in a straight line. This line of charge carries a uniform linear charge density....
2. Superposition (35%) In this problem we consider the electric field generated by combinations of some familiar geometries. (Unless you are told otherwise, assume that all charge distribu- tions in this problem are fixed, that is the charges cannot move.) (a) Consider an infinite line of charge with linear charge density 1. Assume this line of charge lies on the z-axis. What is the electric field due to this charge? (b) Now let's consider two infinite lines of charge. Each...
1. what is the electric field at the centre (r = 0) of a hemisphere bounded by r = a, 0 < θ < π/2 and 0 < φ < 2m, that carries a uniform volumetric charge density P3(The charges are distributed in this hemispherical 3D space. Use spherical coordinates due to the hemispherical geometry.) Consider some charges that are lined up in a straight line. This line of charge carries a uniform linear charge density. Let's make Pl =...
help
Previous Problem List Next (1 point) A flexible cable suspended between two vertical supports is hanging under its own weight. The weight of a horizontal roadbed is distributed evenly along the x-axis with the density ρ 0.7 lb/ft. The coordinate system is chosen so that they-axis passes through the lowest point Pi and the x axis is a -1.5 ft below Pi, as shown in the picture. If the absolute value of tension force in the cable at point...
7. We know that well-defined preferences over two goods have the properties that () indifference curves are negatively sloped, and (ii) that indifference curves are convex (so that chords between two points on the indifference curve lie in the set ((c, y) such that (c,y)(coyo) when (co. o) is a point on the indifference curve). Suppose that good y is "clean air" and good c is consumption of all other goods. This problem gets you to determine what these two...
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