Acceleration of Free Fall - Analysis of the Experiment

I've * finally * shot and edited this analysis video! 🤦‍♂️ 🥳 Analysis of the data collected for the experiment to determine the acceleration of free fall (often referred to acceleration of gravity or g). There is a free worksheet to go with this experiment. I recommend that students try doing the analysis themselves - get as much practice as possible! Worksheet available here: https://www.tes.com/teaching-resource/acceleration-of-free-fall-experiment-with-light-gate-worksheet-12373113 This method uses a light gate to measure the time taken for a weighted card to fall through a known height and then the light gate. The time is then used to calculate the mean final velocity of the card. This with the height obeys the relationship v² = u² + 2as (equation 4 of the equations of uniform acceleration, sometimes called suvat equations). The data is plotted on a graph - v² against h. Then analysed to use the gradient to calculate a value for g. The data was collected in video 1 (https://youtu.be/yKVjlnSOu7s). The spreadsheet I use in this video is available here: https://www.tes.com/teaching-resource/acceleration-of-free-fall-analysis-spreadsheet-12374773 Measuring accleration of free fall is a mandatory practical for many physics specifications. So this is good practice for OCR physics A, AQA A-Level physics, Edexcel A-Level physics, CPAC, PAG, practical endorsement. Relevant concepts: acceleration, free fall, motion, measurements, light gate, electronic timer.