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Periyar Maniammai University Entrance Test (PMUET)-M.Tech - Electrical and Electronics Engineering Exam Pattern

Exam Pattern

The PMU Entrance test (PMUET) for M.Tech - Electrical and Electronics Engineering consists of a Single paper of 3 Hours duration.

  • The exam contains 85 Questions carrying a maximum of 100 marks.
  • The test comprises of three sections, namely:
    • Section A - General Aptitude (Verbal and Numerical) – 20 questions of 1 mark each.
    • Section B - Basic Sciences (Physics, Chemistry, Mathematics, and Computing) – 30 question of 1 mark each.
    • Section C - stream specific question – 20 questions of 1 mark each and 15 questions of 2 mark each.

Note : Section A & B are common for all the streams.

Marking System -  

  • Each correct answer is awarded marks assigned to the respective questions as detailed in clause above.
  • There will be no negative marks for the incorrect answer.

Syllabus Summary

No. Of Subject 13
No. Of Unit 38
No. Of Chapter 253
  1. Critical Reasoning
  1. Number series
  2. Letter Series
  3. Series Missing Numbers
  4. Odd one out
  5. Blood Relation
  6. Calender
  7. Clock
  8. Cubes
  9. Matrix
  10. Coding Decoding
  11. Direction and Distance test
  12. Ranking Tests
  13. Sitting Arrangement
  14. Linear Arrangements
  15. Matrix Arrangements
  16. Mathematical Puzzles
  17. Venn Diagram
  1. Logical Sequence of Words
  2. Analogies
  3. Verbal Classification (Odd one out)
  4. Syllogism
  5. Logical Deduction (based on syllogism)
  6. Course of Action
  7. Causes and Effects
  8. Strong & Weak Arguments
  9. Statements Assumptions
  10. Statements and Conclusions
  11. Statements & Inferences
  1. Basic Control System Components
  2. Block Diagram Representation
  3. Frequency Response
  4. Routh-Hurwitz and Nyquist stability criteria
  5. Lag, lead and lag-lead compensation
  6. Mathematical Modeling and Representation of Systems
  7. Block diagrams and Signal flow graphs
  8. Routh-Hurwitz and Nyquist criteria
  9. Lag, Lead and Lead-Lag Compensators
  10. P, PI and PID Controllers
  11. State Space Model
  1. Characteristics of Semiconductor Power Devices
  1. Buck, Boost and Buck-Boost Converters
  2. Bidirectional AC to DC Voltage Source Converters
  3. Power Factor
  4. Single Phase and Three Phase Inverters
  1. Nodal and Mesh Analysis
  2. Network Theorems
  3. Wye-Delta Transformation
  4. Steady State Sinusoidal Analysis
  5. Time Domain Analysis
  6. Solution of Network Equations
  7. Frequency Domain Analysis
  8. Linear 2-Port Network Parameters
  9. State Equations for Networks
  1. Bridges and Potentiometers
  2. Measurement of voltage, current, power
  3. Instrument Transformers
  4. Oscilloscopes
  5. Error analysis
  1. AC and DC Transmission Concepts
  2. Series and Shunt Compensation
  3. Bus Admittance Matrix
  4. Gauss- Seidel and Newton-Raphson load flow methods
  5. Voltage and Frequency Control
  6. Symmetrical and Unsymmetrical Fault Analysis
  7. System Stability Concepts
  1. Programming Languages
  2. Data Structure
  3. Logic Design and Circuits
  4. Computer Architecture
  5. Operating Systems
  6. Database Systems
  7. Computer Networks
  8. Design and Analysis of Algorithm
  9. Software Engineering
  10. Object Oriented Analysis and Design
  1. Reading Comprehension
  1. Sentence­ Jumble
  1. Nouns
  2. Pronouns
  3. Adjective
  4. Adverbs
  5. Verbs
  6. Prepositions
  7. Articles
  8. Tense
  9. Subject Verb Agreement
  10. Modifiers
  11. Parallelism
  12. Sentence Improvement
  1. Synoymns
  2. Antonym
  3. Analogy
  4. Sentence completion
  5. Cloze Test
  6. Homophones
  7. Confusables
  8. Idioms and Pharses
  9. Migratory Words
  10. Word Usage
  11. Phrasal Verbs
  1. Limits, continuity and differentiability
  2. Partial Derivatives
  3. Maxima and Minima
  4. Sequences and Series
  5. Tests for Convergence
  6. Fourier Series
  7. Taylor series
  1. Linear and non-linear first order Ordinary Differential Equations (ODE)
  2. Higher order linear ODEs with constant coefficients
  3. Cauchy’s And Euler’s Equations
  4. Laplace transforms
  5. Partial Differential Equations - Laplace, heat and wave equations
  1. Matrices and determinants
  2. Systems of Linear Equations
  3. Eigen values and eigen vectors.
  1. Gradient
  2. Divergence and Curl
  3. line
  4. Surface and Volume Integrals
  5. Stokes, Gauss and Green’s theorems
  1. Mean, median, mode and standard deviation
  2. Random Variables
  3. Poisson, Normal And Binomial Distributions
  4. Correlation And Regression Analysis
  5. Tests of significance, analysis of variance (ANOVA)
  1. Solutions Of Linear And Non-Linear Algebraic Equations
  2. Numerical integration - trapezoidal and Simpson’s rule
  3. Numerical solutions of ODE
  1. Resonance
  2. Passive Filters
  3. Ideal Current and Voltage Sources
  1. Thevenin’s Theorem
  2. Norton’s Theorem
  3. Superposition Theorem
  4. Maximum power transfer Theorem
  5. Power and power factor in AC Circuits
  1. Network graph
  2. KCL, KVL
  3. Node and Mesh Analysis
  4. Transient Response of DC and AC Networks
  1. Data interpretations
  2. Data Sufficiency
  1. Percentage 
  2. Profit, Loss and Discount
  3. Time, Speed and Distance
  4. Circular Track & Upstream-downstream
  5. Relative speed
  6. Simple Intrest
  7. Compound interest
  8. Averages
  9. Ratio and proportion
  10. Alligation and Mixture
  11. Time and Work
  12. Pipes and Cisterns
  13. Age
  1. BODMAS/Simplification
  2. Number System
  3. LCM and HCF
  4. Linear Equation
  5. Quadratic equations
  6. Permutation and Combination
  7. Probability 
  8. Arithmatic and Geometric Prograssion
  9. Indices
  10. Logarithm
  11. Set Theory & Venn Diagram
  12. Geometry and Mensuration
  13. Angles, lines
  14. Properties of Triangles
  15. Properties of Quadrilaterals
  16. Properties of Circles
  17. Area and Volume of 2D and 3D figures
  18. Height and Distance
  1. Purification – Crystallization
  2. Quantitative Analysis
  3. Qualitative analysis
  1. Introduction to energy
  2. Conventional sources
  3. Numerical problems
  4. Liquid fuels
  5. Petroleum cracking
  6. Knocking
  7. Bio energy-bio fuels
  1. Electrolytic Conduction
  2. Redox Reactions
  1. Metallic corrosion
  2. Types of corrosion
  3. Stress corrosion
  4. Factors affecting the rate of corrosion
  5. Corrosion control
  6. Corrosion inhibitors
  7. Cathodic Protection-sacrificial anode method
  1. Mechanism of battery operation
  2. Classification of batteries
  3. Classical batteries
  4. Modern batteries
  5. Fuel Cells
  6. Types of fuel cells
  7. Description and working of H2-O2 and MeOH-O2 fuel cells
  1. Hydrogen as a fuel
  2. Physical and Chemical Properties of water
  3. Hydrogen in periodic table
  1. Description of rotation velocity
  2. Rotational motion
  3. Moment of inertia
  4. Torque and angular momentum
  5. Conservation of angular momentum
  6. Rolling motion
  1. Dual Nature Of Radiation
  2. Hertz And Lenard’s Observations
  3. Photoelectric Effect
  4. Einstein’s Photoelectric Equation
  5. Particle Nature Of Light
  6. Matter Waves-Wave Nature Of Particle
  7. De Broglie Relation
  8. Davisson-Germer Experiment
  1. Energy bands in solids
  2. Semiconductor diode
  3. Junction transistor
  4. Logic gates
  1. Laws Of Reflection And Refraction
  2. Lenses and mirrors
  3. Optical instruments
  4. Interference
  5. Interference in thin films
  6. Diffraction due to a single slit
  7. Polarization
  8. Electromagnetic waves
  1. Coherence
  2. Population inversion
  3. Basic principle and operation of a laser
  4. Einstein A and B coefficients
  5. type of lasers
  1. Pressure, density and Archimedes’ principle
  2. Elasticity
  3. Viscosity and Surface Tension
  4. Bernoulli’s theorem

How to prepare

Preparation Strategy

Make a proper Time Table

It is very important that you make a time table and stick to it and you will have an exact idea of what you are required to study and the time required for it.

Concept clarity rather than rote learning

It is essential that you have a clear idea of the formulas and concepts rather than rote learning of things for the papers. While you might require it for memorizing formulas it is important that for other stuff you make sure you clear your basis and concepts before moving on.

Prepare Notes

It is very important make small notes or a comprehensive list of formulas on each covered topic and chapter which will come in handy at the time of revision. This will require you to be regular with your work but will surely make things easy at the time of revision.

Revision of Class XI and XII concepts

Make sure that you revise your concepts from the syllabus of these classes before starting anything new as most of the engineering exams will be for admission to undergraduate courses and so the syllabi from class XI and XII becomes the testing ground to check students.

Seek guidance

It is not possible for you to know everything in your syllabus, at least not at the time of preparation. Sooner or later you will run into a concept or so which will give you trouble and then it is best you seek guidance from an instructor or a teacher. It is necessary that you clear your doubts at regular intervals and don’t prolong things for long. Getting into a good coaching class is nothing to be ashamed off and if anything a regular coaching class will enable you to avoid roadblocks in your preparation.

Sample Papers

Even though there may be a complete change in the exam pattern or the expected questions altogether,it is important that you practice on the sample and previous years question papers available for the engineering exam you’d be attempting. You will know the existing pattern and have a fair idea of the type of questions to expect in the paper along with the time constraint.

Mock tests

The paper pattern, duration of the paper and the number of questions to be attempted in the given amount of time is not something you will be able to pick up on the day of the examination. A Mock Test tests a student’s abilities as it not only provides a similar feel of real exams but also helps in building speed and confident to face the exam. Furthermore, they can improve their performance to get an extra edge in actual exams. Try to build up an Engineering Entrance Exam Test Prep MCQ Question Bank

Time management

Time management can be learnt through thorough practice and regular test taking. So it is important that you practice it and practice it well.

Negative marking

Most the entrance examinations will have negative marking and everyone would suggest you stay clear of questions are not sure about. But some experts are of the opinion that you answer the questions in which you are confused between an option or two because there will also be a chance of getting it right.

Duration : 180 Minutes

Important Instructions

• Online Test Admission Ticket will be available under the Applicant’s login on ERA website from 27th June 2016 till 04th July 2016 • Download and obtain printout of the Test Admission Ticket (Online TAT) for taking the scheduled test. • Test Admission Ticket (Online TAT) is a mandatory document. Candidates will not be allowed to take the ?Uni-GAUGE PGTech 2016‘ without this document. • Test Admission Ticket (Online TAT) gives the details of test centre assigned to the candidate. There is no provision for any request to change the test centre. • Please note that Test Admission Ticket (Online TAT) will NOT be dispatched in any other form to the candidates under any circumstances. After the Entrance test commences, the provision for printing Online Test Admission Ticket will be disabled. Hence the candidates must preserve the Online TAT until the admission process is complete