Solve Laplace’s equation for the potential licld.in the homogencous region between to concentric conducting spheres with radii a and b, b>a. if V=0 at r=b, and V=V, at r=a. (b) Find the capacitance between them. 2-Let the region 0 < 2z < 0.3mand 0.7 < z < 1.0m be conducting slabs carrying uniform current den: 10 in opposite direction ax showa Find H at ) z=12 B)z=0.75 ©)z=04 d)s=02 e¢)z=-0.2
Solve Laplace’s equation for the potential licld.in the homogencous region between to concentric conducting spheres with radii a and b, b>a. if V=0 at r=b, and V=V, at r=a. (b) Find the capacitance between them. 2-Let the region 0 < 2z < 0.3mand 0.7 < z < 1.0m be conducting slabs carrying uniform current den: 10 in opposite direction ax showa Find H at ) z=12 B)z=0.75 ©)z=04 d)s=02 e¢)z=-0.2
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1)- Solve Laplace’s equation for the potential licld.in the homogencous region between to concentric conducting spheres with radii a and b, b>a. if V=0 at r=b, and V=V, at r=a. (b) Find the capacitance between them. 2-Let the region 0 < 2z < 0.3mand 0.7 < z < 1.0m be conducting slabs carrying uniform current den: 10 in opposite direction ax showa Find H at ) z=12 B)z=0.75 ©)z=04 d)s=02 e¢)z=-0.2
Transcribed Image Text:1)- Solve Laplace's equation for the potential field.in the homogeneous region between
to concentric conducting spheres with radii a and b, b>a. if V=0 at rb, and V-V, at
r=a. (b) Find the capacitance between them.
2-Let the region 0<z< 0.3m and 0.7 <z<1.0m be
conducting slabs carrying uniform current densities of
Air
Air
Air
10 in opposite direction as shown Find H at
10
a) z=1.2 B) z-0.75 c) z= 0.4 d) z-0.2 e)z= -0.2
0.7
1.0
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