Solve the sub-parts (A) and (B) only,only typing : 0, and uniform surfacemCm²D3.5. A point charge of 0.25 µC is located at r =charge densities are located as follows: 2 mC/m² at r= 1 cm, and-0.61.8 cm. Calculate D at: (a) r = 0.5 cm; (b) r= 1.5 cm; (c) r = 25cm(d) What uniform surface charge density should be established at r = 3 cm tocause D=0 at r = 3.5 cm?at r=

Given: A point charge of 0.25 μC is located at r=0, and uniform surface charge densities are located…

D3.5. A point charge of 0.25 µC is located at r = 0, and uniform surface charge densities are located as follows: 2 mC/m² at r= 1 cm, and -0.6 mCm² at r= 1.8 cm. Calculate D at: (a) r=0.5 cm; (b) r = 1.5 cm; (c) r = 25 (d) What uniform surface charge density should be established at r = 3 cm to cause D=0 at r = 3.5 cm? cm

D3.5. A point charge of 0.25 µC is located at r = 0, and uniform surface charge densities are located as follows: 2 mC/m² at r= 1 cm, and -0.6 mCm² at r= 1.8 cm. Calculate D at: (a) r=0.5 cm; (b) r = 1.5 cm; (c) r = 25 (d) What uniform surface charge density should be established at r = 3 cm to cause D=0 at r = 3.5 cm? cm

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Question

Solve the sub-parts (A) and (B) only,

only typing

: 0, and uniform surface
mCm²
D3.5. A point charge of 0.25 µC is located at r =
charge densities are located as follows: 2 mC/m² at r= 1 cm, and-0.6
1.8 cm. Calculate D at: (a) r = 0.5 cm; (b) r= 1.5 cm; (c) r = 25cm
(d) What uniform surface charge density should be established at r = 3 cm to
cause D=0 at r = 3.5 cm?
at r=

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