Add to ORKGIt is important for science students to understand not only how to estimate error sizes in measurement data, but also to see how these errors contribute to errors in conclusions they may make about the data. Relatively small errors in measurement, errors in assumptions, and roundoff errors in computation may result in large error bounds on computed quantities of interest. In this column, we look closely at a standard method for measuring the volume of cancer tumor xenografts to see how small errors in each of these three factors may contribute to relatively large observed errors in recorded tumor volumes
The basis for all epidemiological research is an accurate and precise measurement of exposure. Impre...
With the explosion of scientific data and paper preprints, scientists and media find it hard to navi...
In statistics, samples are drawn from a population in a data-generating process (DGP). Standard erro...
It is important for science students to understand not only how to estimate error sizes in measureme...
Errors in educational research and measurement arise from four main sources: (a) errors associated w...
Thinking scientifically consists of systematic observation, experiment, measurement, testing and mod...
This hands-on guide is primarily intended to be used in undergraduate laboratories in the physical s...
This hands-on guide is primarily intended to be used in undergraduate laboratories in the physical s...
This booklet was written to give an idea about how errors propagate in physical measurements. For th...
This accessible introductory textbook provides a straightforward, practical explanation of how stati...
This talk will discuss two guidance papers for biostatisticians on the topic of measurement error, w...
Estimating errors is a crucial part of any scientific analysis. Whenever a parameter is estimated (m...
Error is the lack of ability in explaining empirical phenomena. It can be classified in many ways,de...
Abstract − The article presents measuring errors whose source is medical measuring device of one sid...
Measurement error is ubiquitous in experimental work. It leads to imperfect statistical controls, at...
The basis for all epidemiological research is an accurate and precise measurement of exposure. Impre...
With the explosion of scientific data and paper preprints, scientists and media find it hard to navi...
In statistics, samples are drawn from a population in a data-generating process (DGP). Standard erro...
It is important for science students to understand not only how to estimate error sizes in measureme...
Errors in educational research and measurement arise from four main sources: (a) errors associated w...
Thinking scientifically consists of systematic observation, experiment, measurement, testing and mod...
This hands-on guide is primarily intended to be used in undergraduate laboratories in the physical s...
This hands-on guide is primarily intended to be used in undergraduate laboratories in the physical s...
This booklet was written to give an idea about how errors propagate in physical measurements. For th...
This accessible introductory textbook provides a straightforward, practical explanation of how stati...
This talk will discuss two guidance papers for biostatisticians on the topic of measurement error, w...
Estimating errors is a crucial part of any scientific analysis. Whenever a parameter is estimated (m...
Error is the lack of ability in explaining empirical phenomena. It can be classified in many ways,de...
Abstract − The article presents measuring errors whose source is medical measuring device of one sid...
Measurement error is ubiquitous in experimental work. It leads to imperfect statistical controls, at...
The basis for all epidemiological research is an accurate and precise measurement of exposure. Impre...
With the explosion of scientific data and paper preprints, scientists and media find it hard to navi...
In statistics, samples are drawn from a population in a data-generating process (DGP). Standard erro...