Infrared waves are transverse waves - AQA - GCSE Physics - Question 1 - 2023 - Paper 2

1. Heat water in a kettle and add an equal volume of hot water to each flask.
2. Insert a thermometer into each flask to record the initial temperature.
3. Place an IR detector near each flask, ensuring the same distance each time.
4. Record the initial readings from the IR detectors.
5. Start a stopwatch and allow the flasks to cool for 10 minutes.
6. After 10 minutes, record the final temperatures in each flask.
7. Calculate the temperature change for each flask and compare the results to investigate if the black flask emitted more infrared radiation than the silver flask.

During the 1st minute. This is because the temperature difference between the hot water and the surroundings is greatest at the beginning, leading to a higher rate of infrared emission.

The correct equation is: pressure = force / area.

To calculate the force, use the formula:

$F = P imes A$

Given that water pressure (P) is 1500 Pa and the area (A) of the base is 0.0144 m²:

$F = 1500 imes 0.0144 = 21.6 ext{ N}$

Thus, the force of the water on the bottom of the cube is 21.6 N.