5. A resistor is made out of a solid metal sphere of radius r by cutting off its “poles" as shown in Fig. 5. The resistivity of the material is p. Figure 5 also shows how the resistor is attached to the outside circuit (establishing the direction of the current flow). Find the resistance R of this resistor with a variable cross-section. If the voltage drop across this resistor equals to V, what is magnitude E of the driving electric field right at the center of the resistor? a а Figure 5: Illustration for problem 5.
5. A resistor is made out of a solid metal sphere of radius r by cutting off its “poles" as shown in Fig. 5. The resistivity of the material is p. Figure 5 also shows how the resistor is attached to the outside circuit (establishing the direction of the current flow). Find the resistance R of this resistor with a variable cross-section. If the voltage drop across this resistor equals to V, what is magnitude E of the driving electric field right at the center of the resistor? a а Figure 5: Illustration for problem 5.
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Transcribed Image Text:5. A resistor is made out of a solid metal sphere of radius r by cutting off its “poles" as shown
in Fig. 5. The resistivity of the material is p. Figure 5 also shows how the resistor is attached
to the outside circuit (establishing the direction of the current flow). Find the resistance R of
this resistor with a variable cross-section. If the voltage drop across this resistor equals to V,
what is magnitude E of the driving electric field right at the center of the resistor?
a
а
Figure 5: Illustration for problem 5.
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