Difference between revisions of "Electrical Bulb"

Key Stage 1

Meaning

This bulb has a filament inside it that glows when electricity goes through it.

A light bulb is something that lights up when you switch it on.

Key Stage 2

Meaning

An electrical bulb is a circuit component that gives out light when electricity goes through it.

Singular Noun: Electrical Bulb

Plural Noun: Electrical Bulbs

About Electrical Bulbs

There are many different kinds of electrical bulb.

The type of electrical bulb you will use in class is called a Filament Bulb. It has a thin piece of wire inside that glows when electricity passes through it.

Electrical bulbs can get very hot so you shouldn't touch the glass.

An electrical bulb.	The symbol for an electrical bulb.

Key Stage 3

Meaning

An electrical bulb is a circuit component that gives out light when electricity goes through it.

About Electrical Bulbs

There are many different kinds of electrical bulb.

The type of electrical bulb used in class is called a Filament Bulb. It has a thin piece of wire called a filament that becomes so hot when electricity passes through it that it begins to glow.

Electrical bulbs can get very hot so you shouldn't touch the glass.

An electrical bulb.	The symbol for an electrical bulb.

Key Stage 4

Meaning

The symbol for an bulb.

An electrical bulb is a circuit component that gives out light when electricity goes through it.

About Electrical Bulbs

An electrical bulb usually refers to a Filament Bulb. However, there are other types.

In a filament bulb electrical work is done to heat the filament to a high enough temperature that it glows in visible light, see black body radiation.

The electrical current has a heating effect on the filament which increases its temperature. This causes the resistance to increase, so the bulb does not behave as an ohmic conductor.

IV Graph

Description

The IV Graph for a bulb shows that:

• As potential difference increases, current increases.
• At small potential differences] the the relationship between potential difference and current is linear (the gradient is constant).
• At large potential differences the gradient becomes more shallow as the resistance of the bulb increases.

Explanation

At small potential differences there is a small current so the heating effect of the current is small and the filament remains at a low temperature.

At large potential differences there is a large electrical current so the heating effect of the current is large which causes the filament to be a high temperature.

This is caused by electrons in the wire colliding with ions in the metal lattice causing them to vibrate.

Wires (like the filament) have a greater resistance at higher temperatures, causing the increase in current to be reduced.

This is because the more the ions in the metal lattice vibrate the more likely electrons are to collide with them and slow down.

Obtaining the IV Graph

Connect an ammeter in series with the bulb to measure current through the bulb. Connect a voltmeter in parallel with the bulb to measure the potential difference across it. Use a variable resistor in series with the bulb to vary the potential difference across the bulb. Start with a potential difference of zero and increase the potential difference by an interval of 1V up to 10V. Recording the reading on the voltmeter and ammeter. Reverse the connections on the battery and repeat steps 4 and 5 to find the I-V relationship for negative potential difference and current.

Beyond the Curriculum