6. 7. 8. 2. 11. 16. 17. 10. 12. ILLI (m) 1. 1,700,000 mV 2400000 9. 0.889 mA 3. 357,000 mA 4. 666000 5. 74500 1400 732000 132 V 2347000000 2347000 2347 13. 786 mV 564 4880000 387000000000 5100000 346781300 UNIT (BASE) 1,700 V 2400 357 666 74.5 1.4 V 0.564 A 4,880 Ω 387 000 000 0.786 KILO (K) 1.7 kV 346,781.3 V 2.4 k 0.357 01666 0.0745 KA 4537000000 4 537 000 14. 4,537 KV 6 8870000000 68 870 000 68870 15. Slo 0.0014 0.132 MEGA (M) 0.0017 MV 0.024 0.000357 0.000666 MV 0,0000745 0.00000 14 0.000132 2.347 MA 8.89E-7 88 89 9 9 9 9 9 0.000564 5.64 E 4.86 0.00488 387000 387 MA 0.000786 7.86 E=7 4.537 68.87 MV 0.00051 0.51 kV 346.7813 0.3467
Theory and Design for Mechanical Measurements
Measurement is a term that refers to analyzing a manufactured component regarding the degree of accuracy for dimensions, tolerances, geometric profile, roundness, flatness, smoothness, etc. Measurement always involves comparing the manufactured component or the prototype with a standard specimen whose dimensions and other parameters are assumed to be perfect and do not undergo changes with respect to time.Precisely in mechanical engineering the branch that deals with the application of scientific principles for measurements is known as metrology. The domain of metrology in general deals with various measurements like mechanical, chemical, thermodynamic, physical, and biological measurements. In mechanical engineering, the measurements are limited to mechanical specific such as length, mass, surface profile, flatness, roundness, viscosity, heat transfer, etc.
Basic principles of engineering metrology
Metrology is described as the science of measurement, precision, and accuracy. In other words, it is a method of measurement based on units and predefined standards.
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