## IOE Syllabus 2080

Examination | IOE Entrance Exam |
---|---|

Examination |
IOE EntranceExam |

Syllabus by |
Institute of Engineering IOE |

Time Duration |
2 Hours |

Official Website |
entrance.ioe.edu.np |

**IOE Syllabus Subjectwise and Chapterwise**

Subject | Number of Questions | Total Mark |
---|---|---|

Physics |
31 |
40 |

Chemistry |
18 |
30 |

English |
16 |
20 |

Mathematics |
35 |
50 |

**IOE Engineering Syllabus:**

**IOE is one of the toughest competitive exams in Nepal, aspirants should have an idea about the topic-wise IOE syllabus 2022. They should know how many questions would be asked on which topic of the particular subject. IOE 2080 syllabus comprises three subjects Chemistry, Physics, and Biology. A maximum number of questions are asked from Mathematics.**

**Mathematics Syllabus: 50 Marks**

**1. Set, Logic and Functions**

**1.1 Set, real number system, intervals, absolute value, logic, connectives, laws of logic**

**1.2 Function, types of functions – injective, surjective, bijective, algebraic, trigonometric,**

**exponential and logarithmic; Inverse of function, composite functions**

**2. Algebra**

**2.1 Matrices and determinants, types and properties, inverse of a matrix**

**2.2 Complex numbers and Polynomial equations**

**2.3 Sequence and series, Permutation and Combination**

**2.4 Binomial theorem, exponential and logarithmic series**

**3. Trigonometry**

**3.1 Trigonometric equations and general values**

**3.2 Inverse trigonometric functions, principal value**

**3.3 Properties of triangles, in-centre, ortho-centre and circum-centre, solution of triangles**

**4. Coordinate Geometry**

**4.1 Straight lines, pair of lines**

**4.2 Circles, equations of circle in different forms, tangent and normal**

**4.3 Conic sections: Parabola, Ellipse and Hyperbola, standard equations and simple properties**

**4.4 Coordinates in space, Plane and its equation**

**5. Calculus**

**5.1 Limit and continuity of functions, indeterminate forms, L’Hospital’s rule**

**5.2 Derivatives, rules of derivatives, geometrical & physical meanings, higher order derivatives,**

**Applications of derivative: tangent and normal, rate of change, maxima and minima**

**5.3 Integration, linear properties, rules of integration, standard integrals, definite integral,**

**Applications of definite integral: area under a curve and area between two curves**

**5.4 Differential equations: definition, order and degree, differential equation of first**

**order and first degree: variable separable method, homogeneous, linear and**

**exact differential equations, integrating factor**

**6. Vectors and their Products**

**6.1 Vectors in plane and space, algebra of vectors, linear combination of vectors,**

**linearly dependent and independent set of vectors**

**6.2 Product of two vectors, scalar and vector product of two vectors, scalar triple product**

**7. Statistics and Probability**

**7.1 Measures of location and measures of dispersion**

**7.2 Correlation and regression**

**7.3 Basic terms of probability, conditional and compound probability,**

**additive and multiplicative rules, Bayes’ theorem**

**Physics Syllabus: 40 Marks**

**1. Mechanics**

**1.1 Physical Quantities, Vector and Kinematics: Dimensions, Resolution and Polygon laws of Vector, Vector Algebra, Equations of Motions, Projectile Motion, Relative Motion**

**1.2 Newton’s Laws of Motion and Friction: Conservation of linear momentum, Applications of Newton’s Laws in Equilibrium and Non-equilibrium, laws of Solid Friction and verification**

**1.3 Work, Energy and Power: Work-Energy theorem, Kinetic and Potential energy, Conservation of Energy, Conservative and non-conservative forces, Elastic and inelastic collisions**

**1.4 Circular motion, Gravitation and SHM: Centripetal force, Conical Pendulum, Banking of Track, Gravitational Potential, variation of g, Motion of satellite, Rocket launch technology, Energy in SHM, Spring -Mass system, simple Pendulum, Damped and Forced oscillation, resonance**

**1.5 Rotational Dynamics: Moment of Inertia, Radius of Gyration, Rotational KE, Center of gravity and**

**center of mass, Torque, Conservation of Angular momentum**

**1.6 Elasticity: Hook’s law, Young modulus, Bulk modulus, modulus of rigidity, Poissons’ ratio, elastic energy**

**1.7 Fluid Mechanics: buoyancy, flotation, Archimedes’ principle, surface tension, capillarity and applications, viscosity, Newton, Stoke and Poiseuille’s formula, Reynold number, continuity equation, Bernoulli’s equation**

**2. Heat and Thermodynamics**

**2.1 Temperature and Quantity of Heat: Thermal Equilibrium, Specific heat, latent heat Method of**

**Mixture, Measurement of specific heat and latent heat, Newton’s law of cooling, triple point**

**2.2 Thermal expansion: Expansion of Solid & Liquid, Measurement and Applications of expansions**

**2.3 Transfer of Heat: Conduction, Convection, Radiation, Thermal Conductivity, Black body**

**radiation, Stefan- Boltzmann law**

**2.4 Thermal properties of Matter: Molecular Properties of matter, Kinetic Theory of gases, heat capacities of gases and solids**

**2.5 Laws of Thermodynamics: First law, Heat and Work, relation of specific heat of gas, thermodynamics processes, Second law, Heat engine, efficiency, Carnot Cycle, Otto Cycle, Diesel cycle, Refrigerator, Entropy.**

**3. Geometric and Physical Optics**

**3.1 Reflection: Plane and Curved Mirror, Mirror Formula**

**3.2 Refraction: Plane Surface, Critical Angle, Total Internal Reflection, Lateral shift, Prism, Minimum Deviation, Lenses, Lens Formula, Lens maker’s formula, Combination of lenses in contact, Optical Fiber**

**3.3 Dispersion: Spectrum, Dispersive Power, Chromatic Aberration, Achromatism, Spherical Aberration, Scattering of light**

**3.4 Nature and Propagation of Light: Huygen’s principle, Velocity of light**

**3.5 Interference: Coherent sources, Young’s double slit experiment**

**3.6 Diffraction: Fraunhoffer diffraction, Diffraction grating, Resolving power**

**3.7 Polarization: Brewster’s law, Transverse nature of light, Polaroid**

**4. Waves and Sound**

**4.1 Wave Motion: Travelling and Stationary wave**

**4.2 Mechanical Waves: velocity of sound in solid, gas and liquid, effect of temperature, pressure, humidity**

**4.3 Waves in Pipes and String: closed and Open pipes, Resonance, Resonance Tube, string, laws of vibration of fixed string**

**4.4 Acoustic Phenomena: Pressure amplitude, intensity level, quality and pitch, Ultrasonic and Infrasonic, Doppler’s effect**

**5. Electricity & Magnetism**

**5.1 Electrostatics: Coulomb’s law, Electric field and Gauss law, Potential and potential gradient, Capacitors, combination of capacitors, types of capacitors, effect of dielectrics, Energy stored by capacitors, polarization and displacement**

**5.2 DC Circuits: Ohm’s law, resistivity and conductivity, work and power, Galvanometer and Ohm meter, internal resistance, Joule’s law, Kirchhoff’s law and applications**

**5.3 Thermoelectric Effect: Seebeck effect, Thermocouples, Peltier effect, Thermopile, Thomson effect**

**5.4 Magnetic effect: Force on a conductor and charge, Torque, Hall’s effect, Biot-Savart’s law, Ampere’s law, Force between parallel conductors**

**5.5 Magnetic properties of matter: Earth magnetism, magnetic materials, permeability, susceptibility,**

**hysteresis**

**5.6 Electromagnetic Induction: Faraday’s law, Induced emf, AC Generators, Self and mutual induction, energy stored by inductor, transformer**

**5.7 Alternating Currents: RMS value, Phasor diagram of capacitance, inductance and resistance, Quality factor, Power factor**

**6. Modern Physics**

**6.1 Electrons: Millikons’s experiment, Cathode rays, specific charge**

**6.2 Photons & Quantization of Energy: Photoelectric effect, Plank’s constant, Bohr’s theory, spectral series, De Broglie theory, Uncertainty principle, X-ray and Bragg’s law, Laser**

**6.3 Solids & Semiconductor Devices: Intrinsic and extrinsic semiconductors, P-N junction, Rectification, Zener diode, Transistor, Logic gates**

**6.4 Radioactivity & Nuclear Reaction: Atomic mass, Isotopes, Nuclear density, Einstein’s mass energy relation, mass defect, fission & fusion, law of radioactive disintegration, carbon dating, health hazard**

**6.5 Recent Trends in Physics**

**6.5.1 Particle Physics: Particle and anti-particle, Quarks, Lepton, Baryon, Mesons, Higgs Boson**

**6.5.2 Universe: Big Bang and Hubble’s Law, Dark Matter, Gravitational Wave, Black Hole**

**6.5.3 Seismology: Pressure wave, Surface Wave, Internal wave**

**6.5.4 Telecommunication: Radio, TV and Mobile, GPS and Remote sensing**

**6.5.5 Environment: Energy Crisis, Environment Pollution, Ozone Layer**

**6.5.6 New Technology & Materials: Nano-technology, super conductor & Perfect conductor**

**Chemistry Syllabus: 30 Marks**

**1. Physical Chemistry**

**1.1 Chemical Arithmetic: Dalton’s atomic theory and Laws of Stoichiometry,**

**Atomic mass and Molecular mass, Empirical molecular formula and limiting Reactants, Avogadro are Hypothesis and its applications and Equivalent masses.**

**1.2 State of Matter: Gaseous state, liquid and solid states.**

**1.3 Atomic Structure and Periodic Classification of Elements:**

**1.4 Oxidation, Reduction and Equilibrium**

**1.5 Volumetric Analysis,**

**1.6 Ionic Equilibrium, Acid, Base and Salt**

**1.7 Electrochemistry**

**1.8 Energetic of Chemical Reaction, Chemical Kinetics, Chemical Bonding and**

**Shape of Molecules**

**2. Inorganic Chemistry**

**2.1 Non-metal: Hydrogen, Oxygen, Ozone, Water, Nitrogen and its compounds, Halogen, Carbon, Phosphorous, sulphur, Noble gas and Environment pollution.**

**2.2 Metals: Metallurgical Principle, Alkali metal, Alkaline Earth metals, Coinage metals: Copper, Silver, Gold**

**2.3 Extraction of Metal: Zinc and Mercury, Iron Compound**

**3. Organic Chemistry**

**3.1 Introduction: Fundamental principles, Purification of organic compounds,**

**Nomenclature of Organic compounds, Structure isomerism and idea of reaction mechanism**

**3.2 Hydrocarbons: Alkanes, Alkenes and Alkynes, Aromatic hydrocarbons**

**3.3 Haloalkanes and Haloarenes**

**3.4 Alcohols, Phenols and Ethers**

**3.5 Aldehydes, Ketones , Carboxylic Acid and Derivatives, Aliphatic and Aromatic**

**3.6 Nitro Compounds and Amines: Aromatic and Aliphatic**

**English Syllabus: 20 Marks**

**1 Grammar I**

**1.1 Sequence of Tense, Concord /Agreement**

**1.2 Direct and Indirect Speech**

**1.3 Kinds of Sentences and Transformation of Sentences**

**2 Grammar II**

**2.1 Basic Grammatical Patterns/Structures, Conditional Sentences**

**2.2 Parts of Speech, Active and Passive Voice**

**2.3 Verbal: Infinitives, Gerund and Participles**

**2.4 Punctuation and Use of Prepositions**

**2.5 Vocabulary**

**2.6 Idiomatic Expressions**

**3 Phonetics**

**3.2 Phonemes (Vowels/Consonants)**

**3.3 Syllables and Stress (Word/Sentence)**

**4 Comprehension**

**4.1 Comprehensions of reading passages on a variety of topics and style**

**with special references to General English and Technical English**

**To get a better understanding of the IOE syllabus for 2080, it's essential to know the official paper pattern. This information will help engineering candidates plan their studies effectively. The IOE paper pattern for 2022 is as follows:**

**Duration: 2 hours**

**Number of Questions: 100**

**Total Marks for the IOE exam: 140**

**Question Type: Multiple Choice Questions (MCQs)**

**IOE Mock Tests FAQs**

**What are IOE mock tests?**

**IOE mock tests are practice exams designed to help you prepare for the Institute of Engineering (IOE) entrance exam. They simulate the real test environment and questions.**

**Why should I take IOE mock tests?**

**Mock tests help you familiarize yourself with the exam format, identify your strengths and weaknesses and enhance your time management skills by practising under realistic time constraints, and gain valuable insights into your strengths and areas requiring improvement.**

**Where can I find IOE mock tests?**

**Mock tests can be found online. Download Note Library App, in study guides, or by coaching centres specializing in IOE exam preparation. The best way to take the IOE mock test is through an online medium.**

**Are mock test scores important?**

**Yes, mock test scores give you an idea of your readiness and areas needing improvement. These tests also help you gauge your progress.**

**How many mock tests should I take?**

**Taking several mock tests leading up to the IOE exam is beneficial. Aim for at least 3-4, spaced out over your preparation period.**

**When should I start taking mock tests?**

**Start taking mock tests after you've covered most of your study material. This helps you apply what you've learned.**

**Are mock test scores similar to the actual exam scores?**

**Mock test scores can give you a rough estimate of your potential performance, but actual exam scores may vary due to nerves and exam-day conditions.**

**How do I analyze my mock test results?**

**Review your answers, identify mistakes, and focus on weak areas. Adjust your study plan based on your mock test performance.**