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In Figure (a) below, a 10.26 V battery is connected to a resistive strip that consists of three sections with the same cross-sectional areas but different conductivities. Figure (b) gives the electric potential V(x) versus position x along the strip. The horizontal scale is set by x5 = 9.36 mm. Section 3 has conductivity 3.027×107(Ω⋅m)−1. What is the conductivity of section (a) 1 and (b) 2? (a) (b) x(mm) (a) Number Units (b) Number Units

In Figure (a) below, a 10.26 V battery is connected to a resistive strip that consists of three sections with the same cross-sectional areas but different conductivities. Figure (b) gives the electric potential V(x) versus position x along the strip. The horizontal scale is set by x5 = 9.36 mm. Section 3 has conductivity 3.027×107(Ω⋅m)−1. What is the conductivity of section (a) 1 and (b) 2? (a) (b) x(mm) (a) Number Units (b) Number Units

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In Figure (a) below, a 10.26 V battery is connected to a resistive strip that consists of three sections with the same cross-sectional areas but different conductivities. Figure (b) gives the electric potential V ( x ) versus position x along the strip. The horizontal scale is set by x 5 = 9.36 mm . Section 3 has conductivity 3.027 × 10 7 ( Ω m ) 1 . What is the conductivity of section (a) 1 and (b) 2 ? (a) (b) x ( mm ) (a) Number Units (b) Number Units

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