COMEDK UGET 2020: Syllabus & Exam Pattern

Consortium of Medical, Engineering and Dental Colleges of Karnataka (COMEDK) has released the Syllabus & Exam Pattern of COMEDK UGET 2020 for candidates appearing for the exam. The entrance test is based on the existing syllabus of 10 + 2 / 11th &12th STD / 1st & 2nd PUC. Students can find the subjects and topics that will be covered in the entrance exam through the COMEDK UGET syllabus 2020.

COMEDK UGET 2020 Exam Pattern

The candidates can check the exam pattern of COMEDK UGET 2020 to know the details regarding how the examination will be conducted by the authorities. Information in relation to the particulars of the examination will be present in the exam pattern.

S.No

Particulars

Details

1

Examination mode

Computer based mode

2

Duration

3 Hours (180 minutes)

3

Sections-wise Division of Questions

  • Physics - 60 Questions

  • Chemistry - 60 Questions

  • Mathematics - 60 Questions

4

Total Number of Questions

160 Questions

5

Type of Questions

Objective (Multiple Choice Questions)

6

Total Marks

180 marks

7

Marking Scheme

For every correct answer, 1 mark will be given

8

Negative Marking

There is no negative marking.

Important Points of COMEDK UGET 2020 Exam Pattern

  • COMEDK UGET 2020 will be conducted as a computer based examination on May 10.

  • The candidates are advised to report to the examination centre atleast by 8 AM since checking will be done by the authorities.

  • COMEDK UGET 2020 will be conducted for 3 hours. Mathematics will be held for 1 hour while the combined paper of Physics and Chemistry will be conducted for 2 hours.

  • While attempting the examination, the candidates will have to choose the correct answer from the four options given for each question.

  • The questions asked in COMEDK UGET 2020 will be based from 12th standard syllabus.

COMEDK UGET Syllabus 2020

COMEDK UGET Syllabus for Physics

S.No

Topics

Chapter

1.

Thermal and Chemical Effects of Currents

  • Heating Effects of Current

  • Electric Power

  • Simple Concept of Thermo-Electricity

  • Seebeck Effect and Thermocouple

  • Chemical Effect of Current Faraday’s Laws of Electrolysis

2.

Heat and Thermodynamics

  • Thermal Expansion of Solids

  • Liquids and Gases and their Specific Heats

  • Relationship between Cp and Cv for Gases

  • First Law of Thermodynamics

  • Thermodynamic Processes

  • Second Law of Thermodynamics

  • Carnot Cycle Efficiency of Heat Engines

3.

Oscillations

  • Heating Effects of Current

  • Electric Power

  • Simple Concept of Thermo-Electricity

  • Seebeck Effect and Thermocouple

  • Chemical Effect of Current Faraday’s Laws of Electrolysis

4.

Motion in Two and Three Dimensions

  • Scalars and Vectors

  • Vector Addition

  • Real Number

  • Zero Vector and its Properties

  • Resolution of Vectors

  • Scalar and Vector Products

  • Uniform Circular Motion and its Applications

  • Projection Motion

5.

Electrostatics

  • Electric Charge – it's unit and conservation

  • Coulomb's Law

  • Dielectric Constant

  • Electric Field

  • Lines of Force

  • Field due to Dipole and its behaviour in a uniform electric field.

  • Electric Flux

  • Gauss’s Theorem and its applications

  • Electric Potential, Potential due to a Point Charge.

  • Conductors and Inductors

  • Distribution of Charge on Conductors

  • Capacitance

  • Parallel Plate Capacitor

  • Combination of Capacitors

  • Energy of Capacitor

6.

Motion in One Dimension

  • Description of Motion in One Dimension Motion in a Straight Line

  • Uniform and Non-Uniform Motion – Graphical Representation

  • Uniformly Accelerated Motion and its application.

COMEDK UGET 2020 Syllabus for Chemistry

S.No

Topic

Chapters

1.

Nuclear Chemistry

  • Nature of Radiation from Radioactive Substances

  • Nuclear Reactions: Radioactive Disintegration Series

  • Artificial Transmutation of Elements

  • Nuclear Fission and Nuclear Fusion

  • Isotopes and their Applications

  • Radio Carbon Dating

2.

Chemical Reactions and Chemical Kinetics

  • Rate of Reaction

  • Instantaneous Rate of Reaction and Order of Reaction

  • Factors Affecting Rates of Reactions – Factors Affecting Rate of Collisions Encountered Between the Reactant Molecules, Effect of Temperature on the Reaction Rate, Concept of Activation Energy Catalyst.

  • Effect of Light of Rates of Reactions.

  • Elementary Reactions as Steps to more Complex Reactions.

  • How Fast are Chemical Reactions?

  • Rate Law Expression

  • Order of a Reaction

  • Units of Rates and Specific Rate Constant

  • Order of Reaction and Effect of Concentration

  • Temperature Dependence of Rate Constant

  • Fast Reactions

  • Mechanism of Reaction

  • Photochemical Reactions

3.

Biomolecules

  • Cell and Energy Cycle Carbohydrates: Carbohydrates, Mono-saccharides, Saccharides, Poly-saccharides, Amino Acid

  • Peptides – Structure and Classification

  • Proteins and Enzymes – Structure of Proteins, Role of Enzymes.

4.

Coordination Chemistry

  • Coordination Compounds

  • Nomenclature: Isomerism in Coordination Compounds, Bonding in Coordination Compounds, Werner’s Coordination Theory

  • Applications of Coordination Compounds

5.

Polymers

  • Synthetic and Natural Polymers Classification on Polymers

  • Natural and Synthetic Polymers

  • Important Uses of Teflon, PVC, Polystyrene, Nylon-66, Terylene, Bakelite.

6.

Chemistry in Action

  • Dyes

  • Chemical in Medicines (antipyretic, analgesic, antibiotics & tranquillizers)

  • Rocket Propellants (Structural Formulae Non - Evaluative)

7.

Environmental Chemistry

  • Environmental Pollutants: Soil, Air and Water

  • Major Atmospheric Pollutants: Acid Rain, Ozone and its Reactions causing Ozone Layer Depletion, Effects of the Depletion of Ozone Layer, Industrial Air Pollution.

COMEDK UGET 2020 Syllabus for Mathematics

S. No

Topics

Chapters

1

Differential Calculus

  • Polynomials, Rational, Trigonometric, Logarithmic and Exponential Functions

  • Inverse Functions

  • Graphs of Simple Functions

  • Limits

  • Continuity: Differentiation of the Sum, Difference, Product and Quotient of Two Functions

  • Differentiation of Trigonometric, Inverse Trigonometric, Logarithmic, Exponential, Composite and Implicit Functions, Derivatives of Order up to Two.

  • Applications of Derivatives: Rate of Change of Quantities, Monotonic Increasing and Decreasing Functions, Maxims and Minimum Functions of One Variable, Tangents and Normals, Rolle’s and Lagrange’s Mean Value Theorems.

2.

Circles

  • Standard Form of Equation of a Circle

  • General Form of Equation of a Circle, its radius and centre

  • Equation of a Circle when the End Points of a Diameter are Given.

  • Points of Intersection of a Line and a Circle with the Centre at the Origin and Conditions for a Line to be Tangent to the Circle

  • Equation of the Tangent

  • Equation of a Family of Circles through the Intersection of Two Circles

  • Condition for Two Intersecting Circles to be Orthogonal.

3.

Matrices and Determinants

  • Determinants and Matrices of Order Two and Three

  • Properties of Determinants

  • Evaluation of Determinants

  • Area of Triangles Using Determinants

  • Addition and Multiplication of Matrices

  • Adjoint and Inverse of Matrix

  • Test of Consistency and Solution of Similar Linear Equations using Determinants and Matrices.

4.

Vector Algebra

  • Vectors and Scalars

  • Addition of Vectors

  • Components of a Vector in Two Dimensions and Three Dimensional Space

  • Scalar and Vector Products

  • Scalar and Vector Triple Product

  • Application of Vectors to Plane Geometry

5.

Differential Equations

  • Differential Equations, Ordinary Differential Equation – Their Order and Degree

  • Formation of Differential Equations

  • Solution of Differential Equations by the Method of Separation of Variables.

  • Solution of Homogeneous and Linear Differential Equations and those of type d2y = f(x) dx2.

6.

Three Dimensional Geometry

  • Coordinates of a Point in Space

  • Distance Between Two Points

  • Section Formula

  • Direction Ratios and Direction Cosines

  • Angle between Two Intersecting Lines

  • Skew Lines – The Shortest Distance between them and its Equation.

  • Equations of a Line and a Plane in Different Forms: Intersection of a Line and a Plane, Coplanar Lines, Equation of a Sphere, Its Centre and Radius.

  • Diameter form of the Equation of a Sphere.

7.

Probability

  • Probability of an Event

  • Addition and Multiplication Theorems of Probability and their Application

  • Conditional Probability: Bayes Theorem

  • Probability Distribution of a Random Variate

  • Binomial and Poisson Distributions and their Properties.