Q3. An infinite line charge density of p, = 5nC/m is distributed over the line x = 1, y = 2 and asurface charge density of p, = -10 nC/m² is distributed over x -2 plane. Find the E vectorat P(0,0,1)%3DQ4. A finite line charge density of p 5nC/m isdistributed between z=0 and z=-4 as shown in thefigure. Find the E-field vector at P(3,4,0).z=0"P(3,4,0)Piz=-4Q5. A circular annular ring of inner radius a = 1 and outer radius b = 5 has a non-uniform surfacecharge density of p, =nc/m2. Find the following1. The total charge on the ring.2. The E-field at P(0,0,2)3. The E-field at P(0,0,0)%3DPs

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Q3. An infinite line charge density of p, = 5nC/m is distributed over the line x = 1,y = 2 and a surface charge density of p, =-10 nC/m2 is distributed over x = -2 plane. Find the E vector at P(0,0,1)

Q3. An infinite line charge density of p, = 5nC/m is distributed over the line x = 1,y = 2 and a surface charge density of p, =-10 nC/m2 is distributed over x = -2 plane. Find the E vector at P(0,0,1)

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Question

Q3. An infinite line charge density of p, = 5nC/m is distributed over the line x = 1, y = 2 and a
surface charge density of p, = -10 nC/m² is distributed over x -2 plane. Find the E vector
at P(0,0,1)
%3D
Q4. A finite line charge density of p 5nC/m is
distributed between z=0 and z=-4 as shown in the
figure. Find the E-field vector at P(3,4,0).
z=0
"P(3,4,0)
Pi
z=-4
Q5. A circular annular ring of inner radius a = 1 and outer radius b = 5 has a non-uniform surface
charge density of p, =nc/m2. Find the following
1. The total charge on the ring.
2. The E-field at P(0,0,2)
3. The E-field at P(0,0,0)
%3D
Ps

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