A technician sets up a circuit as shown, using a car battery and two identical lamps - Scottish Highers Physics - Question 12 - 2016

When switch S is closed, the total current in the circuit increases as the lamps are connected in parallel, thereby decreasing the total resistance of the circuit. Consequently, this results in:

• An increase in the current passing through the circuit.
• A decrease in the voltage across the voltmeter as the voltage drop across the lamps will now be derived from a lower total resistance.

Thus, the reading on the voltmeter would decrease.

In a forward-biased LED, electrons from the p-type material are injected into the n-type material. When voltage is applied across the LED, electrons move towards the conduction band, overcoming the band gap, and drop to the valence band. By this process, energy is released in the form of photons:

• The movement of electrons from the conduction band to the valence band results in a decrease in energy levels and the emission of light.

Thus, the energy difference reflected in the emitted light corresponds to the band gap of the LED.

Using the energy-wavelength relation: E = rac{hc}{ ext{wavelength}} where:

• h = Planck's constant
• c = speed of light Given that the band gap for the LED is: $E = 3.03 imes 10^{-19} ext{ J}$ Substituting into the formula:

ext{wavelength} = rac{hc}{E}

Substituting known values:

• h = 6.63 × 10⁻³⁴ J·s
• c = 3 × 10⁸ m/s,

Calculating gives:

The calculated wavelength corresponds to approximately 656 nm, which is in the red region of the visible spectrum. Therefore, the LED emits red light.