Shown in the figure is a semicircular metallic strip that has thickness $t$ and resistivity $\rho$. Its inner radius is $R_{1}$ and outer radius is $R_{2}$. If a voltage $V_{0}$ is applied between its two ends, a current I flows in it. In addition, it is observed that a transverse voltage $\Delta V$ develops between its inner and outer surfaces due to purely kinetic effects of moving electrons (ignore any role of the magnetic field due to the current). Then (figure is schematic and not drawn to scale)
- $I=\frac{v_{0} t}{\pi \rho} \ln \left(\frac{R_{2}}{R_{1}}\right)$
- the outer surface is at a higher voltage than the inner surface
- the outer surface is at a lower voltage than the inner surface
- $\Delta V \propto I ^{2}$
The Correct Option is A, C, D
Solution and Explanation
The Correct Options are A, C, D :
$I=\frac{v_{0} t}{\pi \rho} \ln \left(\frac{R_{2}}{R_{1}}\right)$
the outer surface is at a lower voltage than the inner surface
$\Delta V \propto I ^{2}$
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Concepts Used:
Current Electricity
Current electricity is defined as the flow of electrons from one section of the circuit to another.
Types of Current Electricity
There are two types of current electricity as follows:
Direct Current
The current electricity whose direction remains the same is known as direct current. Direct current is defined by the constant flow of electrons from a region of high electron density to a region of low electron density. DC is used in many household appliances and applications that involve a battery.
Alternating Current
The current electricity that is bidirectional and keeps changing the direction of the charge flow is known as alternating current. The bi-directionality is caused by a sinusoidally varying current and voltage that reverses directions, creating a periodic back-and-forth motion for the current. The electrical outlets at our homes and industries are supplied with alternating current.