to Radiation Free clectn Counter Figure 2: 3. The radial e lectric field for the Geiger counter[see figure 2] is approximately given by E = r (use Gauss' Law for infinitely long concentric conducting cylinders of inner radius a and outer radius b] (a)The potential of the inner cylinder with respect to the outer cylinder and the electric field follow as: V .. E = 1 V = Va - V = | E. dř = dr = 2neor In 2neo (True, False) In In r V1 and a = 145um, b = 1.8cm In (b) Assume the electric field is E = If the radial electric field at a distance of 1.2cm from the axis of the wire is 2 x 10v/m The potential difference between the wire and the cylinder is 1060 Volts (True,False).

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to Radiation V Free electron Counter Figure 2: 3. The radial e lectric field for the Geiger counter[see figure 2] is approximately given by E = [use Gauss' Law for infinitely long 2περτ concentric conducting cylinders of inner radius a and outer radius b] . (a)The potential of the inner cylinder with respect to the outer cylinder and the electric field follow as: 2TEO V b V 1 V = Va – V½ = | Ē . dr = dr 2T€or In 2TE0 * E = ln (True, False) %3D In b а a a (b) Assume the electric field is E = V 1 b r 145µm , b = 1.8cm . If the radial electric field at a distance of 1.2cm from the axis of and a = ln a the wire is 2 × 10ªV/m The potential difference between the wire and the cylinder is 1060 Volts (True,False).