A fuse wire is used to break the electric circuit at the time of excessive current flow. This safety device prevents potential damage to electrical appliances and wiring by melting and interrupting the circuit when the current exceeds a safe ...
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The safety fuse wire used in household electrical appliances is made of a metal with a low melting point. This characteristic allows the fuse to melt quickly and break the circuit when excessive current flows, thereby protecting the appliances and ...
The material used in electrical fuses, an alloy of tin and lead, should have high specific resistance and a low melting point. This combination ensures that the fuse wire heats up quickly and melts when excessive current flows, thereby breaking ...
Electrical fuses are designed to have a low melting point so that they can quickly melt and break the circuit when excessive current flows through, providing protection against electrical hazards such as overheating and fires.
A fuse wire is used in an electric circuit to prevent excess current from flowing in the circuit. By melting and breaking the circuit when the current exceeds a safe level, the fuse protects the electrical components and wiring from ...
The principle of a fuse is based on the thermal effect of electricity. A fuse wire melts due to the heat generated by an excessive current, thereby breaking the circuit and preventing damage. This thermal effect ensures that the fuse ...
Fuse wire is made of an alloy of tin and lead. This combination is selected because the alloy has a low melting point, allowing the fuse to melt and break the circuit quickly when excessive current flows, thus protecting electrical ...
For normal applications, an electric fuse wire must have a low melting point alloy and be thin with less length. These properties ensure that the fuse wire melts quickly when excessive current flows, breaking the circuit effectively and protecting electrical ...
The filament of an electric bulb is made of tungsten. Tungsten is chosen for its high melting point and ability to withstand intense heat without melting, making it ideal for producing light when an electric current passes through it.
The loud sound when a bulb is broken occurs because air enters rapidly into the vacuum inside the bulb. The sudden influx of air into the vacuum creates a pressure difference, causing the loud noise as the vacuum is disrupted.