Figure 11 shows how the resistance of an LDR varies with light intensity - AQA - A-Level Physics - Question 6 - 2021 - Paper 1

To check if the circuit is suitable, we need to evaluate the potential difference across the LDR when it is illuminated as compared to when it is not.

When the LDR is illuminated (4 lux), the resistance is 300 kΩ.

Using the same formula:

1. Calculate the current ($I$) when illuminated:

   • Using $R = 300,000 \; \Omega$:

   $I = \frac{5.0}{300,000} = 0.0000167 \; A$

2. Calculate the potential difference ($V_s$) across the LDR:

   $V_s = I \times R = 0.0000167 \times 300,000 = 5.0 \; V$

When the LDR is not illuminated (1 lux) and has a resistance of 100 kΩ, the situation changes:

3. Calculate $I$ again:

   $I = \frac{5.0}{100,000} = 0.00005 \; A = 50 \; \mu A$

4. Calculate the new $V_s$:

   $V_s = 50 \times 100,000 = 5.0 \; V$

When the change is measured:

• The difference between fully illuminated and unilluminated states is minimal (5.0 V).
• Since 5.0 V does not exceed the 1.25 V threshold for sounding the alarm, the circuit is suitable.