Why does the resistance of the lamp change when too much current flows through the lamp?

Why does the resistance of a lamp change when an excessive amount of current flows through it?

The resistance of a lamp changes when too much current flows through it due to the heating effect, causing an increase in resistance and limiting the current to prevent damage.

Understanding the Phenomenon

When an electrical current flows through a lamp, the lamp's filament or element heats up due to the energy carried by the moving electrons. This heating effect is caused by the collisions between electrons and atoms in the material, leading to the transfer of energy as heat. As the lamp's temperature increases, its resistance tends to increase as well. Ohmic Behavior and Resistance The phenomenon of a lamp's resistance changing when too much current flows through it can be attributed to the property of materials known as "ohmic behavior" or "ohmic resistance." Ohmic behavior refers to the linear relationship between the voltage applied across a material and the current passing through it, as described by Ohm's Law. Protective Mechanism When an excessive amount of current flows through the lamp, the heating effect becomes much more pronounced. The temperature of the filament rises rapidly, causing an even greater increase in resistance. This increase in resistance results in a higher voltage drop across the lamp for a given current, which reduces the overall current flowing through the circuit. This mechanism acts as a protective measure to prevent an excessive amount of current from passing through the lamp, thus safeguarding it from potentially damaging levels of energy and heat. In some extreme cases, if the current surpasses a critical threshold, the lamp's filament may experience "thermal runaway," leading to the lamp's failure or destruction. In summary, the change in resistance of a lamp when too much current flows through it is a result of the heating effect caused by the collisions between electrons and atoms in the material. This change in resistance serves as a protective mechanism to prevent the lamp from being exposed to dangerously high levels of heat and energy.
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