![SOLVED: DERIVIATION OF UNCERTAINTIES Formula used to calculate time-squared value: 2 Recall power rule (Rule #3), where X is a generic measurement with an uncertainty Ax; raised to the power of n SOLVED: DERIVIATION OF UNCERTAINTIES Formula used to calculate time-squared value: 2 Recall power rule (Rule #3), where X is a generic measurement with an uncertainty Ax; raised to the power of n](https://cdn.numerade.com/ask_images/0ecfef43239141b3995d7614c9d0f3ae.jpg)
SOLVED: DERIVIATION OF UNCERTAINTIES Formula used to calculate time-squared value: 2 Recall power rule (Rule #3), where X is a generic measurement with an uncertainty Ax; raised to the power of n
![Determining Uncertainties from Graphs (1.2.3) | AQA A Level Physics Revision Notes 2017 | Save My Exams Determining Uncertainties from Graphs (1.2.3) | AQA A Level Physics Revision Notes 2017 | Save My Exams](https://cdn.savemyexams.co.uk/cdn-cgi/image/w=1920,f=auto/uploads/2021/03/Uncertainty-in-Gradient-Calculation.jpeg)
Determining Uncertainties from Graphs (1.2.3) | AQA A Level Physics Revision Notes 2017 | Save My Exams
![The ± 1 second is called the absolute uncertainty Every measurement has an uncertainty or error. e.g. time = 5 seconds ± 1 second There are three main. - ppt download The ± 1 second is called the absolute uncertainty Every measurement has an uncertainty or error. e.g. time = 5 seconds ± 1 second There are three main. - ppt download](https://images.slideplayer.com/24/6980266/slides/slide_3.jpg)