Combining and reporting analytical results /

Combining and reporting analytical results /

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Reliable and metrologically comparable results of quantitative analytical methods are essential to assure that decisions taken on their basis have meaning and context. Problems with combining measurement results, calculating their uncertainties and establishing metrological traceability can prove co...

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Bibliographic Details
Corporate Author: International Workshop on Combining and Reporting Analytical Results--The Role of (meteorological) Traceability and (measurement) Uncertinty for Comparing Analytical Results
Other Authors: Belli, M., Fajgeli, A., Sansone, U.
Format: Conference Proceeding eBook
Language:English
Published: Cambridge : RSC Pub., [2006]
Series:Special publication (Royal Society of Chemistry (Great Britain)) ; no. 307.
Subjects:
Chemistry > Analtyic > Congresses.
Analytical Chemistry.
Chemistry, Analytic > Congresses.
Chemistry, Analytic.
Chemistry.
Physical Sciences & Mathematics.
SCIENCE > Chemistry > Analytic.
Science.
Conference papers and proceedings.
Electronic books.
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Environmental Metrology: The Italian Approach; Comparability and Quality of Experimental Data Under Different Quality Systems; The Role of Traceability in Sustainable Development: the UNIDO Approach; Quality Assurance of Chemical Measurements
  • Metrological or Management Effort; Combination of Results from Several Measurements
  • An Everlasting Problem; Metrological Characteristics of the Conventional Measurement Scales for Hydrogen and Oxygen Stable Isotope Amount Ratios: The รด-Scales; Experience with Metrological Traceability and Measurement Uncertainty in Clinical Chemistry.
  • Reporting of Uncertainty in Environmental Monitoring of RadionuclidesThe Use of Reference Materials in International Reference Measurement Systems and for Comparison of Analytical Data; The CSM Approach to the Calculation of the Uncertainty in XRF Analysis of Low- and High-Alloyed Steels; Comparison of Different Approaches to Evaluate Proficiency Test Data; Distribution of Proficiency Testing Reaults and Their Comparability; Inter-Laboratory Comparison: the APAT Approach; External Quality Assessment Schemes in Biomedical Field: From Definition of Targets to End-Users.
  • Traceability of pH in a Metrological ContextDetermination of PCBs in Organic Solutions: An Example of Traceability Chain; Quality Control of pH Measurements Considering Activity and Concentration Scales: Uncertainty Budget of Primary and Secondary Apparatuses; Metrology in Complex Situations: Experiences with Thermodynamic Data; Some Traceability Problems in Analytical Assays of Interest in Thermal Metrology; Developments in Uncertainty Evaluation: The Activity of JCGM/WG1; How to Combine Results Having Stated Uncertainties: To MU or Not to MU?
  • Uncertainty and Traceability: The View of the Analytical ChemistPropagating Non-Normally Distributed Uncertainty
  • The Ljungskile Code; A Systematic Approach in the Evaluation of Uncertainty in Analytical Chemistry
  • Application to ICP-AES Analysis; Self-Referring Procedure for the Full Calibration of a Dynamic Gas Devider; Investigation of Uncertainty Related to Measurements of Particulate Organic Pollutants; Micronucleus Test in Peripheral Erythrocytes of Fish: Variability in Microscope Scoring; Evaluation of Intrinsic Uncertainty in the ka-NAA.