• Written By Imran_H

# AMU-AT (B.Tech.) Important Topics 2023: Check Subject-wise Topics

Why is it important for aspirants to know the AMU-AT (B. Tech) syllabus and topics? Because only with proper knowledge of the exam syllabus can you create a proper study plan and prioritise learning accordingly. At Embibe, we help you understand the basics behind each topic so can learn the advanced topics quickly. Strong conceptual knowledge will make the AMU AT (B.Tech.) topics easier.

Embibe is a 3D learning app that provides 50+ books and mock tests for AMUEEE, so start your preparation and don’t stall your efforts. The video solutions and explainers will assist you in understanding the topics comprehensively. You can understand all the AMU-AT (B.Tech.) topics easily and quickly with the help of 3D videos. Read the entire article, enhance your knowledge of subject-wise AMUEEE topics, and extemporise your learning abilities.

– AMUEEE 2023 application form was released on the official website on February 17, 2023. The last date for registration is March 17, 2023.
– AMUEEE 2023 exam will be held on May 14, 2023, in various exam centres.

## What Are the Important Topics of AMU-AT (B.Tech) 2023?

The AMUEEE 2023 is scheduled to be conducted on May 14, 2023. The AMUEEE syllabus comprises three sections, Physics, Chemistry and Mathematics. You can check subject-wise important topics at Embibe. In this app, you can find the video explanations for all the chapters:

### AMUEEE Physics Important Topics

Let us have a look at the important topics for AMUEEE Physics:

 Sl.No. Chapters Important Topics 1 Experiments in Physics Experiments in Physics-I Experiments in Physics-II 2 Mathematical Tools in Physics Applications of Differential Calculus in Physics Applications of Integral Calculus in Physics Vectors Addition and Subtraction of Vectors Multiplication of Vectors 3 Physical World and Measurement Physics and its Relation with Environment Nature of Physical Laws Measurements of Physical Quantities Error Analysis Significant Figures and Rounding off Numbers 4 Kinematics Motion in a Straight Line Variable Acceleration Graphical Representation of Motion Motion in a Plane Projectile Motion 5 Laws of Motion Force Newton’s Laws of Motion Inertial and Non-inertial Frames of Reference Spring Force Constraint Relations 6 Friction Friction Static Friction Dynamic Friction Motion on Rough Inclined Plane Two-Block Problems 7 Circular Motion Angular Variables in Circular Motion Kinematics of Circular Motion Dynamics of Circular Motion Banking of Roads Centrifugal Force 8 Work, Energy and Power Work Work Energy Theorem Conservative Force and Potential Energy Power Vertical Circular Motion 9 Centre of Mass, Momentum and Collisions Centre of Mass and its Motion Centre of Mass Frame Impulse of a Force Linear Momentum and Its Conservation Principle Variable Mass System 10 Rotational Mechanics Rigid Body Combined Rotational and Translational Motion Kinematics of Rotational Motion Moment of Inertia Torque 11 Elasticity Deformation and Elastic Behaviour of Solids Hooke’s Law and Modulus of Elasticity Stress-Strain Curve Elastic Potential Energy Viscosity and Surface Tension 12 Thermal Properties of Matter Measurement of Temperature Thermal Expansion of Solids, Liquids and Gases Specific Heat Capacity Latent Heat Calorimetry 13 Heat Transfer Heat Conduction in One Dimension Convection Blackbody Radiation Kirchhoff’s Law of Radiation Stefan’s Law 14 Thermodynamics Basics of Thermodynamics Internal Energy and Work Done in Thermodynamics Heat Capacity Thermodynamic Processes and Indicator Diagrams First Law of Thermodynamics Kinetic Theory of Gases 15 Simple Harmonic Motion Simple Harmonic Motion Equation of SHM Energy in SHM Linear SHM 16 Wave Motion Terms in Wave Motion Equation of Wave Velocity and Acceleration of Particles in Wave Motion Speed of Wave on a String 17 Sound Waves Sound as a Pressure Wave Intensity and Loudness of Sound Reflection of Longitudinal Waves Resonance Speed of Sound in Gases 18 Electrostatics Electric Charge and Its Properties Methods of Charging Coulomb’s Law Superposition Principle and Continuous Charge Distribution Electric Field 19 Ray Optics Basic Terms in Geometrical Optics Reflection of Light Plane Mirror Curved Mirror Refraction of Light 20 Wave Optics Huygen’s Principle Interference of Light Young’s Double Slit Experiment Interference Due to Thin Films Diffraction of Light 21 Dual Nature of Matter and Radiation Photon Theory of Light Photoelectric Effect Photoelectric Cell and its Applications Radiation Pressure de Broglie Wavelength 22 Atomic Physics Atomic Model Bohr’s Model of Hydrogen Atom Emission and Absorption Spectrum X – Rays Characteristic and Continuous X-Rays

Note: To get the complete list of Physics topics for AMUEEE, click here

### AMUEEE Chemistry Important Topics

The important topics for AMUEEE Chemistry are given below:

 Sl.No. Chapters Important Topics 1 Some Basic Concepts of Chemistry Matter and its Nature Measurement of Matter and Uncertainty in Measurement Laws of Chemical Combination Dalton’s Atomic Theory Atomic and Molecular Mass 2 Structure of Atom Atomic Models Discovery of Sub-Atomic Particles Some Important Atomic Terms Wave Nature of Electromagnetic Radiation Spectrum 3 States of Matter: Gases and Liquids Classification of States of Matter Measurable Properties of Gases Intermolecular Forces Gaseous Laws and Ideal Gas Equation Dalton’s Law of Partial Pressure 4 Thermodynamics Terminology in Thermodynamics Fundamentals of Thermodynamics First Law of Thermodynamics Applications of First Law of Thermodynamics Enthalpy 5 Equilibrium Introduction to Equilibrium Equilibrium in Physical Processes Chemical Equilibrium and its Characteristics Law of Chemical Equilibrium and Equilibrium Constants Equilibrium Constants and its Significance 6 Redox Reactions Classical Idea of Redox Reactions Oxidation Number Types of Redox Reactions Balancing of Redox Reactions Redox Reactions and Electrode Processes 7 Solid State Classification and Properties of Solids Classification of Crystalline Solids and their Properties Crystal Lattice and Unit cells Calculations for Standard Cubical Unit Lattice Packing in Solids 8 Solutions Types of Solutions Methods of Expressing Concentration of Solutions Solubility Vapour Pressure of Liquid Solutions Raoult’s Law 9 Electrochemistry Electrochemical Cells Electrodes Electrode Potential and Standard Electrode Potential Nernst Equation and Its Application Electrochemical Series and its Applications 10 Chemical Kinetics Kinetics of Chemical Reactions Rate of a Chemical Reaction Factors Influencing Rate of Reaction Order of a Reaction Molecularity of a Reaction 11 Surface Chemistry Importance of Surface Chemistry Adsorption Catalysis Colloids Classification of Colloids 12 Classification of Elements and Periodicity in Properties Brief History of The Development of Periodic Table Modern Periodic Law and the Present Form of the Periodic Table Nomenclature of Elements in Periodic Table with Atomic Number Greater than 100 Atomic Radii, Ionic Radii and Van der Waals Radii Ionisation Enthalpy and its Applications 13 Chemical Bonding and Molecular Structure Kossel-Lewis Approach to Chemical Bonding Ionic or Electrovalent Bond Fajan’s Rule Covalent Bonding Valence Bond Theory 14 Hydrogen General Introduction of Hydrogen Preparation of Dihydrogen Properties of Hydrogen Uses of Dihydrogen Hydrides 15 The s-Block Elements General Introduction of Group 1 Elements Physical Properties of Group 1 Elements Chemical Properties of Group 1 Elements Anomalous Properties of Lithium Important Compounds of Group 1 Elements 16 Environmental Chemistry Environmental Pollution Atmospheric Pollution Water Pollution Soil Pollution Industrial Waste 17 General Principles and Processes of Isolation of Metals (Metallurgy) Occurrence of Elements in Nature Concentration of Ores Conversion of Ores into Oxide Thermodynamic and Electrochemical Principles Ellingham Diagrams 18 The p-Block Elements p-Block Elements General Introduction of Group 13 Elements Atomic and Physical Properties of Group 13 Elements Chemical Properties of Group 13 Elements Important Compounds of Group 13 Elements 19 The d- and f-Block Elements General Introduction of d- and f-Block Elements General Properties of d-Block Elements Some Important Compounds of Transition Metals General Introduction of Lanthanoids 20 Coordination Compounds Introduction to Coordination Compounds Important Terms related to Coordination Compounds Ligands and their Classification Chelation Werner’s Theory of Coordination Compounds 21 Qualitative Analysis (Beyond Syllabus) Basic Terminologies in Qualitative Analysis Preliminary Test for Radicals Systematic Analysis of Anionic Radicals Systematic Analysis of Cationic Radicals Hydrocarbons 22 Organic Chemistry- Some Basic Principles and Techniques General Introduction of Organic Chemistry Classification of Organic Compounds Nomenclature of Organic Compounds Isomerism Structural Isomerism 23 Hydrocarbons General Introduction of Hydrocarbons Isomerism in Alkanes Physical Properties of Alkanes Preparation Method of Alkanes Chemical Properties of Alkanes 24 Haloalkanes and Haloarenes Introduction to Haloalkanes and Haloarenes Classification of Haloalkanes and Haloarenes Nomenclature of Haloalkanes and Haloarenes Nature of C – X Bond in Haloalkanes Physical Properties of Haloalkanes and Haloarenes 25 Alcohols, Phenols and Ethers General Introduction of Alcohols, Phenols, and Ethers Physical Properties of Alcohols Physical Properties of Phenols Preparation of Alcohols Chemical Properties of Alcohols

AMUEEE Mathematics Important Topics

Following is the list of important AMUEEE Mathematics topics and candidates can check them and complete their preparation at the earliest:

 Sl.No. Chapters Important Topics 1 Trigonometric Ratios and Identities Basics of Trigonometry Trigonometric Functions and Properties Trigonometric Identities Conditional Identities Trigonometric Series 2 Trigonometric Equations and Inequations Trigonometric Equations Trigonometric Inequations 3 Properties of Triangle Relations Between Sides and Angles of a Triangle Half-Angle Formula and the Area of a Triangle Inradius, Exradii and Circumradius Distances of the Centres of a Triangle from Its Vertices and Sides Distance between Various Centre Points of a Triangle 4 Straight Line Basics of 2D Coordinate Geometry Special Points in a Triangle Transformation of Axes Equation of a Straight Line in Various Forms Straight Line and a Point 5 Functions Basics of Functions Transformation of Graphs Types of Functions Even and Odd Functions Periodic Functions 6 Indefinite Integration Basics of Indefinite Integral Methods of Integration Integration of Rational Functions Integration of Irrational Functions Integration Using Trigonometric Identities 7 Definite Integration Basics of Definite Integral Properties of Definite Integral Definite Integral as Limit of a Sum Reduction Formulae for Definite Integration Newton Leibnitz’s Theorem Estimation of Definite Integral 8 Vector Algebra Basics of Vectors Addition of Vectors Geometrical Application of Vectors Dot Product of Two Vectors Cross Product of Two Vectors Basics of Vectors 9 Three Dimensional Geometry Basics of 3D Geometry Equation of a Line in 3D Line and a Point Interaction between Two Lines in 3D Equation of Plane 10 Statistics Basics of Statistics Measures of Central Tendency Measures of Dispersion 11 Probability Basics of Probability Algebra of Probability Conditional Probability Total Probability and Bayes’ Theorem Probability Distribution of a Random Variate

### AMUEEE 2023 Mock Tests

Candidates can follow the below-mentioned steps to attempt the AMUEEE mock tests at Embibe:

• 1st Step: Visit Embibe’s official website, i.e., embibe.com.
• 3rd Step: Then select your ‘Goal’ as ‘AMU-AT (B.Tech)’ under Engineering.
• 4th Step: Click ‘Next’ and select your preferred language.
• 5th Step: Refer to the below-mentioned links to attempt mock tests.

Q: What is the syllabus of AMU-AT (B.Tech.) 2023?

Ans: The AMU-AT (B.Tech.) syllabus is based on Physics, Chemistry and Biology subjects. You can refer to Classes 11 and 12 to strengthen your basic concepts.

Q: What is the exam duration of AMU-AT (B.Tech.)?

Ans: The AMU-AT (B.Tech.) exam duration is 3 hours.

Q: How to improve your preparations for AMUEEE?

Ans: Solve previous year’s question papers, revise regularly, and focus on AMU-AT (B.Tech.) important topics. Create a timetable to help you prepare strategically for the exam.

Q: How many questions are asked in AMU-AT (B.Tech.)?

Ans: The AMU AT exam will have 150 questions for 150 marks.

Q: What is the marking scheme for AMU-AT (B.Tech.) 2023?

Ans: As per the AMU-AT (B.Tech.) exam pattern, 1 mark will be awarded for every correct answer and 0.25 marks will be deducted for every incorrect answer.

Also, check the following:

We hope the above article about AMU-AT (B.Tech.) topics has cleared all your doubts and queries. We wish you all the best for the upcoming exams.

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