1.8
Scientists make repeated measurements of a quantity during experimentation to ensure that their results are accurate and precise.
The accuracy of a measurement is the degree of closeness of the results to the true or accepted value.
Consider two students, A and B, who repeatedly weighed a gold bar known to have a true mass of 10 grams. Students A and B each reported three values from repeated measurements of the gold bar. Student A reported values closer to the true mass of the bar compared to student B. Thus, measurements by student A were, therefore, more "accurate".
Precision, on the other hand, is the measure of how closely the results agree with each other, or how reproducible they are.
A measurement is said to be precise if it gives highly similar results when repeated under the same conditions.
For instance, the values for the mass of the gold bar reported by student B were very similar to one another, as compared to student A. That is "precision".
Accuracy and precision are two distinct qualities of measurement which are independent of each other. Thus, a particular set of measurements can be either accurate, or precise, or neither, or both.
Highly accurate values tend to be precise too. Like a weighing balance showing true or close to true masses for all of the objects, repeatedly. However, highly precise measurements may not necessarily be accurate - if the same balance is improperly calibrated, it may give precise but inaccurate readings. This may lead to scientific errors.
Wetenschappers voeren doorgaans herhaalde metingen uit van een grootheid om de kwaliteit van hun bevindingen te waarborgen en zowel de precisie als de nauwkeurigheid van hun resultaten te evalueren. Metingen worden als precies beschouwd als ze bij herhaling op dezelfde manier zeer vergelijkbare resultaten opleveren. Een meting wordt als nauwkeurig beschouwd als het resultaat zeer dicht bij de werkelijke of geaccepteerde waarde ligt. Precieze waarden komen overeen met elkaar; nauwkeurige waarden komen overeen met de werkelijke waarde. Sterk nauwkeurige metingen hebben vaak ook een hoge precisie. Zeer precieze metingen zijn echter niet per se nauwkeurig. Bijvoorbeeld, een verkeerd gekalibreerde thermometer of een defecte weegschaal kan zeer consistente maar onnauwkeurige metingen geven.
Deze tekst is overgenomen uit Openstax, Chemistry 2e, Sectie 1.5: Meetonzekerheid, nauwkeurigheid en precisie.
Scientists make repeated measurements of a quantity during experimentation to ensure that their results are accurate and precise.
The accuracy of a measurement is the degree of closeness of the results to the true or accepted value.
Consider two students, A and B, who repeatedly weighed a gold bar known to have a true mass of 10 grams. Students A and B each reported three values from repeated measurements of the gold bar. Student A reported values closer to the true mass of the bar compared to student B. Thus, measurements by student A were, therefore, more "accurate".
Precision, on the other hand, is the measure of how closely the results agree with each other, or how reproducible they are.
A measurement is said to be precise if it gives highly similar results when repeated under the same conditions.
For instance, the values for the mass of the gold bar reported by student B were very similar to one another, as compared to student A. That is "precision".
Accuracy and precision are two distinct qualities of measurement which are independent of each other. Thus, a particular set of measurements can be either accurate, or precise, or neither, or both.
Highly accurate values tend to be precise too. Like a weighing balance showing true or close to true masses for all of the objects, repeatedly. However, highly precise measurements may not necessarily be accurate - if the same balance is improperly calibrated, it may give precise but inaccurate readings. This may lead to scientific errors.
From Chapter 1:
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