An engineer wants to use solar cells to provide energy for a filament lamp in a road sign - AQA - A-Level Physics - Question 4 - 2017 - Paper 1

For Figure 5, the total resistance in the circuit is 6.0 Ω, and with a required current of 75 mA, the voltage across the circuit can be calculated using Ohm's Law:

$V = I imes R = 0.075 ext{ A} imes 6.0 ext{ Ω} = 0.45 ext{ V}$

Since this voltage is less than the emf of 0.70 V, the circuit is suitable.

For Figure 6, the total resistance is also 6.0 Ω, but we need to consider additional internal resistance of the solar cell. Thus, if we assume a series circuit, the effective resistance is 6.0 Ω + 8.0 Ω = 14.0 Ω. The voltage required remains 0.45 V but with the higher resistance, the current produced is insufficient, therefore this circuit may not be suitable.

The power required to operate the road sign can be calculated as follows:

The total resistance is 6.0 Ω, and the current needed is 75 mA (0.075 A). Thus:

$P = I^2 imes R = (0.075^2) imes 6.0 = 0.03375 ext{ W}$

Since the solar cells operate at an efficiency of 4.0%, the input power required from sunlight is given by:

P_{input} = rac{P_{output}}{Efficiency} = rac{0.03375}{0.04} = 0.84375 ext{ W}

The sunlight intensity can be determined from the area of the solar cell supply, which is 32 cm², or 0.0032 m²:

Intensity = rac{P_{input}}{Area} = rac{0.84375 ext{ W}}{0.0032 m^2} = 263.5 ext{ W m}^{-2}