Electrostatic problem 1
There is one line charge distribution with ρl = 1[nC/m] along the y = 1, x = 3 line. There also is one surface charge distribution with ρs = -1/2π [nC/m2] on z = 2 plane. Write down the total electric field a t point P =(1,1,0)[m]
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Electrostatic problem 1 There is one line charge distribution with ρl = 1[nC/m] along the y...
4. A line charge ρL=50 nC/m, is located along the line x=2, y=5, in free space. (a) Find E at P(1,3,-4). (b) If the surface x=4 contains a uniform surface charge density ρS=18nC/m2, at what point in the z=0 plane is Etotal=0?
2.6 You are given a line of charge along the y axis from y- to y-l. The charge on the line varies in density: pe-/l [nC/m. Find the potential for any point in the a - z plane. 2.7 Find the electric field intensity for each potential distribution: a. V=2x2 +4y2 c, V-5r2 cos θ sin φ 2.8 At what values of θ does the electric field intensity of a z-directed dipole have no z component?
Consider an infinite uniform line charge density of 3 nC/m located on the X axis in fre spaee Calculate the electric field vector E of at the point P (2. 3,4) 2. (2 Marks) Calculate the electric field vector E of a uniform surface charge density of -5 nC/m2 at z-2 at the point P (1, 2, 0) in free space. (2 Marks) 3.
2. A line of charge with uniform density of 38.0 nC/m lies along the line y 12.0 cm between the points x 5.0 cm and 40.0 cm. Calculate the electric field (both the magnitude and direction) at the origin due to this charge distribution. (2436 N/C, 137.9°)
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...
An infinitely long uniform line charge of 20 nC/m lie along the z axis in free space, determine the electric flux density (in Cartesian coordinate system) at observation point P(1, 1, -1). No need to derive any expressions! Show main steps with proper units. An infinitely long uniform line charge of 20 nC/m lie along the z axis in free space, determine the electric flux density (in Cartesian coordinate system) at observation point P(1, 1,-1). No need to derive any...
A line of charge with uniform density of 32.0 nC/m lies along the line y = -15.0 cm, between the points with coordinates x = 0 and x = 48.0 cm. Find the electric field it creates at the origin. Magnitude N/C Direction ° (counterclockwise from the +x axis)
The charge density of the middle plane is +14 nC/m2 (nC = "nano Coulomb") and that of the two outer planes is -7nC/m2. Your answers for the electric field must include the correct sign. We choose positive electric field along the positive y-direction. The figure above shows three very thin parallel planes of charge with equal separation 4 cm between them. The charge density of the middle plane is +14 nC/m2 (nC = "nano Coulomb") and that of the two...
A charge q1 = 1 nC is at (0,2) m and a second charge q2 = −2 nC is at (3,0) m. Point P is at (3,3) m. (a) Determine the electric field vector at P. (b) Determine the electric potential at P. (c) Determine the magnitude of the electrostatic force on a charge of 1 nC at P.
1. An infinite line of uniform positive charge runs along the x axis and has a line charge density of λ=20.8 m nC . Consider the point (0 m, 2.00 m) which is located 2.00 meters above the infinite line. What is the magnitude of the electric field at this point? 2. An infinite horizontal plane of uniform negative charge sits at a height ofz=0. For a point at a height of z=−3m (i.e., 3 meters below the infinite plane),...