Answer:
Answer explained in details in explanation.
Step-by-step explanation:
Ohm's law states that the current passing through a mettalic conductor is directly proportional to the ptotential difference across its end provided temperature and other physical properties remain constant.
Mathematically,
V = IR
Where,
V is applied voltage in Volts
I is current in Ampere
R is resistance in Ohms
All true Ohmic devices obey Ohms law. Example of ohmic devices are resistors, light filament etc. For an Ohmic device or component with resistance R, a proportional increase/decrease in the value of the applied voltage will cause a proportional increase/decrease in the current respectively. This implies the ratio of voltage to curremt, V/I, is constant. Considering a simple circuit with a ohmic device of constant resistance, when current, I, is plotted as a function of voltage the curve is a straight line (linear) graph.
However, there are components of electrical circuits which do not obey Ohm’s law. These components or devices are said to be non-ohmic. For non-hmic devices or components, with resistance R, a proportional increase/decrease in the value of the applied voltage will not cause a proportional increase/decrease in the current respectively. The relationship between current and voltage (I–V curve) is nonlinear for non-ohmic devices. An example is the p-n junction diode.