The knowledge we have of the physical world is obtained by doing experiments and making measurements. It is important to understand how to express such data and how to analyze and draw meaningful conclusions from it. In doing this it is crucial to understand that all measurements of physical quantitie
At the turn of the 19th century, Carl Friedrich Gauß founded error calculus by predicting the then u...
Measurement is fundamental to all of science but the role of measurement is sometimes overlooked. In...
Measurements and experiments are made each and every day, in fields as disparate as particle physics...
This booklet was written to give an idea about how errors propagate in physical measurements. For th...
Summary: It is explained that the theory of errors is the application of the statistical method to t...
Error is the lack of ability in explaining empirical phenomena. It can be classified in many ways,de...
Discusses the factors that can interfere with the execution of measurements of physical quantities. ...
Thinking scientifically consists of systematic observation, experiment, measurement, testing and mod...
This book introduces some of the applications of the exact sciences and their relation to the "pract...
The article discusses the process of studying the systematic errors together with elementary physics...
A recipe for calculating errors of observations in the undergraduate practical class is given along ...
This article presents reflections on the errors that arise in the process of conducting experiments ...
Physics is not just about mathematics. Mathematical entities in physics translate an actual experien...
Abstract. For a numerical physical quantity v, because of the mea-surement imprecision, the measurem...
It is important for science students to understand not only how to estimate error sizes in measureme...
At the turn of the 19th century, Carl Friedrich Gauß founded error calculus by predicting the then u...
Measurement is fundamental to all of science but the role of measurement is sometimes overlooked. In...
Measurements and experiments are made each and every day, in fields as disparate as particle physics...
This booklet was written to give an idea about how errors propagate in physical measurements. For th...
Summary: It is explained that the theory of errors is the application of the statistical method to t...
Error is the lack of ability in explaining empirical phenomena. It can be classified in many ways,de...
Discusses the factors that can interfere with the execution of measurements of physical quantities. ...
Thinking scientifically consists of systematic observation, experiment, measurement, testing and mod...
This book introduces some of the applications of the exact sciences and their relation to the "pract...
The article discusses the process of studying the systematic errors together with elementary physics...
A recipe for calculating errors of observations in the undergraduate practical class is given along ...
This article presents reflections on the errors that arise in the process of conducting experiments ...
Physics is not just about mathematics. Mathematical entities in physics translate an actual experien...
Abstract. For a numerical physical quantity v, because of the mea-surement imprecision, the measurem...
It is important for science students to understand not only how to estimate error sizes in measureme...
At the turn of the 19th century, Carl Friedrich Gauß founded error calculus by predicting the then u...
Measurement is fundamental to all of science but the role of measurement is sometimes overlooked. In...
Measurements and experiments are made each and every day, in fields as disparate as particle physics...