| Individual course details | ||||||||||
| Study programme | Applied and computational physics | |||||||||
| Chosen research area (module) | ||||||||||
| Nature and level of studies | ||||||||||
| Name of the course | Metrological laboratories | |||||||||
| Professor (lectures) | ||||||||||
| Professor/associate (examples/practical) | ||||||||||
| Professor/associate (additional) | ||||||||||
| ECTS | Status (required/elective) | |||||||||
| Access requirements | ||||||||||
| Aims of the course | Introduction to all required metrological and legal conditions for foundation and functioning accredited metrological laboratory for calibration and testing. Adoption of all rules and consequences of ISO 17025 standard and their application in accredited laboratory. | |||||||||
| Learning outcomes | Basic training for procedures of foundation and directing of accredited metrological laboratory. Develope and implement internal proceures of calibration, testing instruments, forming calibration certificate. process of calibration. Interlaboratory testing. | |||||||||
| Contents of the course | ||||||||||
| Lectures | ISO 17025 standard basics.System of quality. | |||||||||
| Examples/ practical classes | Calibration and testing in follovin areas: temperature, relative humidity, pressure, optical quantities-spectrophotometers, atomic apsorption spectrophotometers. Mechanical quantities-mass, volumetry. Electromagnetic quantities. | |||||||||
| Recommended books | ||||||||||
| 1 | ISO 17025 | |||||||||
| 2 | ||||||||||
| 3 | ||||||||||
| 4 | ||||||||||
| 5 | ||||||||||
| Number of classes (weekly) | ||||||||||
| Lectures | Examples&practicals | Student project | Additional | |||||||
| Teaching and learning methods | ||||||||||
| Assessment (maximal 100) | ||||||||||
| assesed coursework | mark | examination | mark | |||||||
| coursework | written examination | |||||||||
| practicals | oral examination | |||||||||
| papers | ||||||||||
| presentations | ||||||||||