Results you can trust: Minimizing weight measurement uncertainty
Precision weighing is one of the most important requirements for scientists working within regulated laboratories. Analytical balances have now been simplified and perfected to deliver the highest levels of precision. Despite such breakthrough discoveries, still several aspects remain that can contribute to measurement uncertainty.
In this webinar, join Holger Densow, product manager, and Julian Haller, metrology engineer from Sartorius, as they reveal how to obtain reliable and consistent weighing results, highlighting the theory of measurement uncertainty as suggested by the Calibration Guideline No. 18 (cg-18) of the European Association of National Metrology Institutes (EURAMET). Densow and Haller will also explain the concept of a minimum sample weight, and present the suggested ways of determination of the cg-18, USP Chapter 41 (USP41) and of the recommendation R76 of the International Organization of Legal Metrology (OIML).
Key learning outcomes:
- Understand the measurement uncertainty concept
- Explore and learn the different minimum sample weight concepts
- Ensure compliance by determining balance software functions
Who should attend:
- Lab managers
- Quality managers
- Staff scientists
- Lab supervisors
- Department heads
- Research scientist
Certificate of attendance
All webinar participants can request a certificate of attendance, and a learning outcomes summary document for continuing education purposes.