Calculating Uncertainties

Colin Killmer

11 Sept 201312:14

Summary

TLDRThis video explains how to calculate and report uncertainties in measurements. It covers essential concepts like rounding uncertainties to one significant figure, the methods for adding and subtracting measurements while combining uncertainties, and the conversion of absolute uncertainties to percentage uncertainties for multiplication and division. The importance of reflecting uncertainties in the final results is emphasized, along with best practices for reporting measurements, including unit placement. Understanding these principles is crucial for accurate scientific reporting and ensures that calculations maintain their integrity.

Takeaways

😀 Uncertainties express the limitations of measurement tools and must be considered in all calculations.
😀 Report uncertainties to one significant figure to maintain clarity and accuracy.
😀 When adding or subtracting measurements, combine the normal values first and then add the uncertainties directly.
😀 The resulting measurement from addition or subtraction includes both the calculated value and the combined uncertainty.
😀 For multiplication and division, convert absolute uncertainties to percent uncertainties before performing calculations.
😀 Percent uncertainty is calculated as (absolute uncertainty / measured value) × 100%.
😀 In density calculations, first divide mass by volume and handle uncertainties separately.
😀 After finding percent uncertainty in density, convert it back to an absolute measurement for final reporting.
😀 Always report final results with one significant figure in the uncertainty to reflect measurement precision.
😀 Unit labels should be placed appropriately, with absolute measurements at the end and uncertainty percentages with the first value.

Q & A

What is the main topic discussed in the video?
-The video focuses on how to calculate using uncertainties in measurements, emphasizing the importance of reflecting inaccuracies in mathematical operations.
Why is it important to express uncertainties in measurements?
-Expressing uncertainties helps communicate the limitations of measuring tools and materials, ensuring that calculations reflect the inherent inaccuracies of the initial measurements.
How should uncertainties be reported according to the video?
-Uncertainties should be reported to one significant figure, which helps maintain clarity and simplicity in expressing measurement accuracy.
What is the approach to adding or subtracting values with uncertainties?
-When adding or subtracting values, you add the normal numbers and then add the uncertainties, treating them as additive to reflect the overall uncertainty in the result.
Can you give an example of adding two volumes with uncertainties?
-For example, adding 2.5 ± 0.5 cm³ and 5.0 ± 0.5 cm³ gives a total of 7.5 cm³ with an uncertainty of ± 0.1 cm³.
What happens to uncertainties when measurements are subtracted?
-When subtracting measurements, the uncertainties are still added together, reflecting that the overall uncertainty increases, regardless of whether the values are getting smaller.
How do you calculate percent uncertainties?
-Percent uncertainties are calculated by dividing the absolute uncertainty by the measured value and then multiplying by 100 to express it as a percentage.
What is the process for multiplying or dividing measurements with uncertainties?
-When multiplying or dividing, you add the percent uncertainties of the measurements involved instead of using absolute uncertainties.
What is the final step after calculating density with uncertainties?
-After calculating density, convert the percent uncertainty back into an absolute measurement to report the density value with its associated uncertainty.
Where should unit labels be placed in measurements?
-Typically, the unit label is placed with the first value, while the percentage uncertainty is listed after the uncertainty, ensuring clarity in communication.