Data Communication & Networking Multiple Choice Questions and Answers-MCQsThis Portion of Electrical and Electronic Measurements and Measuring instruments MCQs has been compiled from the various books for students studying in various universities and also for those appearing in various professional examinations

This section has been divided into two parts , part 1 deals with measurement and measuring instruments MCQs and Part 2 takes care of the instrumentations MCQs

We strongly recommend students to refer below lists of books for more understanding and in depth study of this subject

  1. A Course In Electronics & Electrical Measurements And Instrumentation by K Sawhney (Author)
  2. Electrical and Electronics Measurements and Instrumentation by Prithwiraj Purkait (Author)

When preparing for Electrical and Electronics Measurements and Instrumentation multiple-choice questions (MCQs), students should focus on practicing the following key areas:

1. Conceptual Understanding:

Develop a strong conceptual understanding of the principles, theories, and concepts related to electrical and electronics measurements. This includes topics such as measurement techniques, instrumentation, signal conditioning, error analysis, calibration, and transducers. MCQs often test your understanding of these fundamental concepts.

2. Formulas and Equations:

Be familiar with the relevant formulas and equations used in electrical and electronics measurements. Practice deriving and manipulating these equations to solve different measurement problems. MCQs may require you to apply specific formulas to calculate quantities or analyze measurement systems.

3. Instrumentation Techniques:

Gain a comprehensive understanding of various measurement techniques and instruments used in electrical and electronics engineering. This includes knowledge of different types of meters, oscilloscopes, signal generators, spectrum analyzers, data acquisition systems, and their applications. Practice MCQs that test your knowledge of different instruments and their appropriate usage.

4. Error Analysis and Uncertainty:

Understand the sources of errors and uncertainties in measurements and learn how to analyze and minimize them. Study error propagation, statistical analysis, calibration methods, and uncertainty estimation. MCQs might include questions related to error analysis and uncertainty calculations.

5. Measurement System Design:

Practice designing measurement systems for specific applications. This involves selecting appropriate sensors, signal conditioning circuits, data acquisition methods, and considering factors like noise, accuracy, and reliability. Solve MCQs that require you to design measurement systems based on given requirements and constraints.

6. Standards and Calibration:

Familiarize yourself with international standards and calibration procedures used in electrical and electronics measurements. Understand the importance of calibration and its impact on measurement accuracy. Practice MCQs related to calibration techniques, traceability, and standards organizations.

By practicing these areas, students can enhance their understanding of electrical and electronics measurements, strengthen problem-solving skills, and improve their chances of answering MCQs correctly. It is also recommended to refer to textbooks, study guides, and previous question papers to gain exposure to different types of MCQs and their formats.