Question

In: Physics

Infinite plane sheets of charge lie in z = 0, z = 2, and z =...

Infinite plane sheets of charge lie in z = 0, z = 2, and z = 4 planes with uniform surface charge densities ps1, ps2, ps3 respectively. Given that the resulting electric field intensities at the points (3, 5, 1), (1, -2, 3), and (3, 4, 5) are 0az, 6az and 4az V/m respectively, find ps1, ps2, ps3 and electric field vector at point (-2,1,-6).

Solutions

Expert Solution

If you have any doubt, please let me know

genius_generous answered 6 months ago
Next > < Previous

Related Solutions

Two infinite planes of charge lie parallel to each other and to the yz plane. One...
Two infinite planes of charge lie parallel to each other and to the yz plane. One is at x = -2 m and has a surface charge density of ϝ = -3.2 µC/m2. The other is at x = 3 m and has a surface charge density of ϝ = 4.0 µC/m2. Find the electric field for the following locations. (a) x < -2 m = N/C (i hat) (b) -2 m < x < 3 m = N/C (i...
An infinite plane slab of thickness 2H has a uniform charge density p , where z...
An infinite plane slab of thickness 2H has a uniform charge density p , where z is defined to be at the center of the slab. In the z direction, the slab extends from z = -H to z = +H. Find the electric field both inside and outside the slab. (Hint: Outside the slab, Qenc does not depend on z anymore.)
Given an infinite sheet of charge occupying the x-y plane such that the charge density is...
Given an infinite sheet of charge occupying the x-y plane such that the charge density is constant and uniform, find the electric field at any point on the z-axis by: A) Using the point charge formula for the electric field directly in cartesian coordinates. B) Using the point charge formula for the electric field directly in cylindrical coordinates. C) Using the point charge formula for potential in cylindrical coordinates and taking the gradient. DO NOT USE GAUSS'S LAW
A proton is launched from an infinite plane of charge with surface charge density -1.90×10-6 C/m2....
A proton is launched from an infinite plane of charge with surface charge density -1.90×10-6 C/m2. If the proton has an initial speed of 3.70×107 m/s, how far does it travel before reaching its turning point? 1.20×10-6 m 1.80×10-6 m 66.6 m 133 m
a)An infinite (very large) charged plate with charge density σ is parallel to the xz plane...
a)An infinite (very large) charged plate with charge density σ is parallel to the xz plane and passes through the point (0, 5, 0). Calculate the electric field of the plate. For points and> 5, where is the electric field directed? How much is E⃗ for points and <5 where is the electric field directed? how much is E⃗ b) Thinking about the previous example, now in addition to the loaded plate from the previous exercise, think that there is...
The reflection of the plane 2x-3y+4z-3=0 in the plane x-y+z-3=0 is the place
The reflection of the plane 2x-3y+4z-3=0 in the plane x-y+z-3=0 is the place
1.16 [1pt] Consider an infinite non-conducting plane having a charge density of 1 C/m^2. Sketch electric...
1.16 [1pt] Consider an infinite non-conducting plane having a charge density of 1 C/m^2. Sketch electric field lines and indicate the value of electric field 1 m away from the plane 1.16 ANSWER 1.17 [1pt] Let’s add a point charge of-1C, at a distance 1 m from the plane in problem 1.18. What would be the force onto the charge? 1.17 ANSWER 1.18 [2pt] How much work will it take to remove the point charge in 1.17 from where it...
1.16 [1pt] Consider an infinite non-conducting plane having a charge density of 1 C/m^2. Sketch electric...
1.16 [1pt] Consider an infinite non-conducting plane having a charge density of 1 C/m^2. Sketch electric field lines and indicate the value of electric field 1 m away from the plane 1.16 ANSWER 1.17 [1pt] Let’s add a point charge of-1C, at a distance 1 m from the plane in problem 1.18. What would be the force onto the charge? 1.17 ANSWER 1.18 [2pt] How much work will it take to remove the point charge in 1.17 from where it...
point charge +Q at origin and two infinite ground planes at z= +- d. used method...
point charge +Q at origin and two infinite ground planes at z= +- d. used method of images to find a)electric potential in region |z| =< d b)induced surface charge density on the plates
Four lines from a square in the z = 0 plane, centered at the origin, with...
Four lines from a square in the z = 0 plane, centered at the origin, with a side length of 2a. The lines at x = a and x = -a have a positive charge density +λ0, and the lines at y = a and y = -a have a negative charge density −λ0. a. Find an expression for the potential at an arbitrary point (x, y, z). b. Use your result from part (a) to find the potential at...
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT