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Physical principles of data obtaining | Profile | 12.03.01 Instrument Making | | Qualification (degree) | Bachelor | | Year/semester | 3/5 | | Number of credits | 5 | | Assessment | Test | | Learning activities and time resource | Teaching hours: 64 Independent study: 116 Total: 180 | | Subject of study | This discipline studies the physical basis of the measuring conversions for information about the different properties of objects | | Sillabus | - Measurement conversion in low
- Measurement conversion in radio wave
- Measurement conversion in acoustic fields
- Measurement conversion in thermal fields
- Measurement conversion in optical radiation
- Measurement conversion in ionizing radiation
| Annotation Course title Theory of measurement error Profile 12.03.01 Instrument Making Qualification (degree) Bachelor Year/semester 3/6 Number of credits 3 Assessment Test Learning activities and time resource Teaching hours: 48 Independent study: 60 Total: 108 Sillabus 1. Probability theory. Mathematical statistics 2. Correlation and regression analysis 3. Measurement error. Types of Measurement error 4. Rationing methods of measurement errors for a measuring instruments 5. Processing and presentation of measuring results
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Physical principles of data obtaining | Profile | 12.03.01 Instrument Making | | Qualification (degree) | Bachelor | | Year/semester | 3/5 | | Number of credits | 5 | | Assessment | Test | | Learning activities and time resource | Teaching hours: 64 Independent study: 116 Total: 180 | | Subject of study | This discipline studies the physical basis of the measuring conversions for information about the different properties of objects | | Sillabus | - Measurement conversion in low
- Measurement conversion in radio wave
- Measurement conversion in acoustic fields
- Measurement conversion in thermal fields
- Measurement conversion in optical radiation
- Measurement conversion in ionizing radiation
| Annotation Course title Theory of measurement error Profile 12.03.01 Instrument Making Qualification (degree) Bachelor Year/semester 3/6 Number of credits 3 Assessment Test Learning activities and time resource Teaching hours: 48 Independent study: 60 Total: 108 Sillabus 1. Probability theory. Mathematical statistics 2. Correlation and regression analysis 3. Measurement error. Types of Measurement error 4. Rationing methods of measurement errors for a measuring instruments 5. Processing and presentation of measuring results
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Primary measuring transducers and instruments | Profile | 12.03.01 Instrument Making | | Qualification (degree) | Bachelor | | Year/semester | 2/4 | | Number of credits | 4 | | Assessment | Test | | Learning activities and time resource | Teaching hours: 80 Independent study: 64 Total: 144 | | Subject of study | This discipline studies the physical basis of transducers, their design, switching circuits, characteristics, applications | | Sillabus | - Electrical transducers
- Magnetic transducers
- Eddy current transducers
- Radio wave transducers
- Acoustic transducers
- Thermal transducers
- Optical transducers
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Electromagnetic methods of control | Profile | 12.03.01 Instrument Making | | Qualification (degree) | Bachelor | | Year/semester | 4/8 | | Number of credits | 6 | | Assessment | Test | | Learning activities and time resource | Teaching hours: 77 Independent study: 139 Total: 216 | | Subject of study | This discipline considers the theoretical basis, technique and means of diagnosing technical objects based on the use of electrical, magnetic, eddy current non-destructive testing methods | | Sillabus | - Electrical non-destructive testing methods
- Magnetic non-destructive testing methods
- Eddy current non-destructive testing methods
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Electromagnetic inspection and diagnostics | Profile | 12.03.01 Instrument Making | | Qualification (degree) | Master | | Year/semester | 2/3 | | Number of credits | 6 | | Assessment | Test | | Learning activities and time resource | Teaching hours: 32 Independent study: 40 Total: 72 | | Subject of study | This discipline considers the theoretical basis, technique and means of diagnosing technical objects based on the use of electrical, magnetic, eddy current non-destructive testing methods | | Sillabus | - Diagnosing technical objects based on the use of electrical methods
- Diagnosing technical objects based on the use of magnetic methods
- Diagnosing technical objects based on the use of eddy current methods
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