Airports Authority of India (AAI) released the official notification for the post of Managers, Junior Executives in various trades. A total number of 368 vacancies were released this year. Aspirants were waiting for this from 2018 (Last Recruitment), as the last recruitment notification was released in 2018. This year total vacancies for Junior Executive (Air Traffic Control-ATC) are 264 and the total vacancies for Junior Executive (Airport Operations) are 83. Here in this course, you can find the video lectures, eBooks for the following subjects.

• Physics (ATC & AO)
• Maths (AO)
• Engineering Mathematics (ATC)
• Aviation Industry (AO)

## AAI ATC Exam Pattern

There are two sections to this exam. One is Technical & the other is Non-Technical. Both sections carry equal marks.

Technical: {Physics (Class 12th Text Books/NCERT)-30 , B.Sc (Maths/Engineering Maths-30)}- Total 60 Marks

Non-Technical: {English- 20, General Intelligence/Reasoning- 15, General Aptitude/Quantitative Aptitude- 15, General Knowledge- 10}- Total 60 Marks

## AAI AO Exam Pattern

There are two sections to this exam. Both sections carry equal marks.

Technical: {Physics (Class 12th Text Books/NCERT)-24 Marks, Mathematics (Class 12th Text Books/NCERT)-24 Marks, Aviation Industry Questions- 12 Marks,}- Total 60 Marks

Non-Technical: {English, General Intelligence/Reasoning, General Aptitude/Quantitative Aptitude,  General Knowledge- 48 Marks, Business Management- 12 Marks}- Total 60 Marks

Refunds: We do not provide a refund for any product once the order is confirmed. There is no obligation to provide a refund.

#### Package Includes

• Mathematics (AO)- English
• Set Theory
• Lecture 1: Set Theory
• Lecture 1: Set Theory (PDF)
• Lecture 2: Set Theory
• Lecture 2: Set Theory (PDF)
• Relation & Function
• Lecture 1: Relation and Function
• Lecture 1: Relation and Functions (PDF)
• Lecture 2: Relation and Function
• Lecture 2: Relation and Functions (PDF)
• Trigonometric Function
• Lecture 1: Measurement of Angles
• Lecture 1: Trigonometric Functions (PDF)
• Lecture 2: Trigonometric, Circular Functions
• Lecture 2: Trigonometric Functions (PDF)
• Lecture 3: T-Ratios of Compound Angels
• Lecture 3: Trigonometric Functions (PDF)
• Lecture 4: T-Ratios of Transformation Angles
• Lecture 4: Trigonometric Functions (PDF)
• Lecture 5: T-Ratios of Multiple and Submultiple Angles
• Lecture 5: T-Ratios of Multiple and Submultiple Angles (PDF)
• Complex Numbers
• Lecture 1: Complex Numbers
• Lecture 1: Complex Numbers (PDF)
• Lecture 2: Complex Numbers
• Lecture 2: Complex Numbers (PDF)
• Lecture 1: Quadratic Equations (PDF)
• Permutation and Combination
• Lecture 1: Permutation
• Lecture 1: Permutation (PDF)
• Lecture 2: Permutation
• Lecture 2: Permutation (PDF)
• Lecture 3: Combination
• Lecture 3: Combination (PDF)
• Linear Inequations
• Lecture 1: Linear Inequations
• Lecture 1: Linear Inequations (PDF)
• Binomial Theorem
• Lecture 1: Binomial Theorem
• Lecture 1: Binomial Theorem (PDF)
• Lecture 2: Binomial Theorem
• Lecture 2: Binomial Theorem (PDF)
• Sequence and Series
• Lecture 1: Sequence and Series (AP)
• Lecture 1: Sequence and Series (AP) (PDF)
• Lecture 2: Sequence and Series (AP)
• Lecture 2: Sequence and Series (AP) (PDF)
• Lecture 3: Sequence and Series (GP)
• Lecture 3: Sequence and Series (GP) (PDF)
• Lecture 4: Sequence and Series (GP)
• Lecture 4: Sequence and Series (GP) (PDF)
• Lecture 5: Special Series Part-1
• Lecture 5: Special Series Part-2
• Lecture 5: Special Series (PDF)
• Lecture 6: Sequence and Series
• Lecture 6: Sequence and Series (PDF)
• Matrix
• Lecture 1: Matrix
• Lecture 1: Matrix (PDF)
• Lecture 2: Matrix
• Lecture 2: Matrix (PDF)
• Determinants
• Lecture 1: Determinant
• Lecture 1: Determinant (PDF)
• Lecture 2: Determinant
• Lecture 2: Determinant(PDF)
• Continuity
• Lecture 1: Continuity
• Lecture 1: Continuity (PDF)
• Lecture 2: Continuity
• Lecture 2: Continuity (PDF)
• Differentiation
• Lecture 1: Differentiation
• Lecture 1: Differentiation (PDF)
• Lecture 2: Differentiation
• Lecture 2: Differentiation (PDF)
• Lecture 3: Differentiation
• Lecture 3: Differentiation (PDF)
• Lecture 4: Differentiation
• Lecture 4: Differentiation (PDF)
• Lecture 5: Derivative as a rate measure
• Lecture 5: Derivative as a rate measure (PDF)
• Lecture 6: Tangents and Normals
• Lecture 6: Tangents and Normals (PDF)
• Lecture 7: Increasing and Decreasing Function
• Lecture 7: Increasing and Decreasing Function (PDF)
• Lecture 8: Maxima and Minima
• Lecture 8: Maxima and Minima (PDF)
• Integrals
• Lecture 1: Indefinite Integral
• Lecture 1: Indefinite Integral (PDF)
• Lecture 2: Indefinite Integral
• Lecture 2: Indefinite Integral (PDF)
• Lecture 3: Indefinite Integral
• Lecture 3: Indefinite Integral (PDF)
• Lecture 4: Indefinite Integral
• Lecture 4: Indefinite Integral (PDF)
• Lecture 5: Indefinite Integral
• Lecture 5: Indefinite Integral (PDF)
• Lecture 6: Indefinite Integrals
• Lecture 6: Indefinite Integrals (PDF)
• Inverse Trigonometric Function
• Lecture 1: Inverse Trigonometric Functions Basics
• Lecture 1: Inverse Trigonometric Functions Basics (PDF)
• Probability
• Lecture 1: Probability
• Lecture 1: Probability (PDF)
• Definite Integral
• Lecture 1: Definite Integral
• Lecture 1: Definite Integral (PDF)
• 3D Geometry
• Lecture 1: Vectors and 3D
• Lecture 1: Vectors and 3D (PDF)
• Quiz (PDF)
• Chapter 1 Quiz
• Chapter 2 Quiz
• Chapter 3 Quiz
• Chapter 4 Quiz
• Chapter 5 Quiz
• Chapter 6 Quiz
• Chapter 7 Quiz
• Chapter 8 Quiz
• Chapter 9 Quiz
• Chapter 10 Quiz
• Chapter 11 Quiz
• Chapter 12 Quiz
• Chapter 13 Quiz
• Chapter 14 Quiz
• Chapter 15 Quiz
• Chapter 16 Quiz
• Chapter 17 Quiz
• Chapter 18 Quiz
• 3D Geometry Quiz
• Aviation Industries (AO)- English
• Previous Paper Solution
• Lecture 1: Previous Paper Solution
• Lecture 1: Previous Paper Solution (PDF)
• Aviation Industries Lectures
• Lecture 1
• Lecture 1 (PDF)
• Lecture 2
• Lecture 2(PDF)
• Lecture 3
• Lecture 3 (PDF)
• Lecture 4
• Lecture 4 (PDF)
• Lecture 5
• Lecture 5 (PDF)
• Terminal Building Manual
• Engineering Mathematics (ATC)- English
• Quiz (PDF)
• Linear Algebra
• Calculus Part 1
• Calculus Part 2
• Integral Calculus
• Partial Derivatives
• Multiple Integral
• Fourier Series
• Differential Equation
• Complex Variables
• Linear Algebra
• Lecture 1: Linear Algebra
• Lecture 2: Classification of Matrix
• Lecture 3: Determinants and Basics of Elementary Transformation
• Lecture 4: Determinants Examples
• Lecture 5: Properties of Determinant & Shortcut Methods
• Lecture 6: Properties of Determinants Questions
• Lecture 7: Numerical on Matrices and Determinants
• Lecture 8: Numerical on Matrices and Determinants (Part-2)
• Lecture 9: Rank Of A Matrix, Significance & Properties
• Lecture 10: Special Property and Examples on Rank of a Matrix
• Lecture 11: Echelon Form of a Matrix
• Lecture 12: Examples and Conclusion
• Lecture 13: System of Linear Equation
• Lecture 14: Questions on Linear Equations
• Lecture 15: Questions on Linear Equations Part-2
• Lecture 16: Problems on System of Linear Equations Part 2
• Lecture 17: Linearly Dependent and Independent Vectors, Orthogonal & Orthonormal vector
• Lecture 18: Eigen Values & Eigen Vector
• Lecture 19: Eigen Value and Eigen Vectors Part-2
• Lecture 20: Finding Eigen Vectors
• Lecture 21: Properties of Eigen Values
• Lecture 22: Concept of Diagonalization of Matrix
• Lecture 23: Practice Problems
• Lecture 24: Transformation Matrices of Various Nature
• Lecture 25: Vector Space (Basics)
• Lecture 26: Basis, Span and Dimension of a Sub space
• Calculus
• Lecture 1: Syllabus Discussion
• Lecture 2: Limit (Basics)
• Lecture 3: Examples on Limits
• Lecture 4: Standard Limits
• Lecture 5: Concept of Continuity
• Lecture 6: Concept of Differentiability
• Lecture 7: Limits Problems
• Lecture 8: Limit of continuous Functions, Implicit and Explicit function, Lebnitz Rule
• Lecture 9: Logarithmic Differentiation
• Lecture 10: Mean Value Theorem
• Lecture 11: Mean Value Theorem Problems
• Lecture 12: Taylor Series Basics
• Lecture 13: Taylor Series Problems
• Lecture 14: Concept of Total Derivative
• Lecture 15: Euler's Theorem
• Lecture 16: Maxima and Minima
• Lecture 17: Maxima and Minima Problems
• Lecture 18: Maxima Minima in Case of 2 Variable
• Integral Calculus
• Lecture 1: Basics of Integration
• Lecture 2: Tricks, Definite Integral and Examples
• Lecture 3: General Examples And Integration Of Mod And Box Functions
• Lecture 4: Properties In Integration
• Lecture 5: Gamma Function Theory
• Lecture 6: Numericals On Gamma Functions
• Lecture 7: Application Of Integrals Length Of Arc
• Lecture 8: Numerical Practice On Length Of Curve
• Lecture 9: Numericals Practice Part 2
• Lecture 10: Area Under The Curve Basics
• Lecture 11: Change Of Order Basics, Double & Triple Integrals
• Lecture 12: Conversions Between Coordinate System And Concept Of Jacobian
• Vector Calculus
• Lecture 1: Basics of Vector Calculus
• Lecture 2: Basics of Vector Calculus and Numericals
• Lecture 3: Numericals
• Lecture 4: Green's, Stokes & Gauss Divergence Theorem with Examples
• Lecture 5: Numericals
• Lecture 6: Numericals on Stokes Theorem
• Differential Equation
• Lecture 1: Basics of Differential Equation
• Lecture 2: Basics of Differential Equation (Part-2)
• Lecture 3: Linear Differential Equation Basics
• Lecture 4: Numericals on Linear Differential Equation
• Lecture 5: Exact Differential Equation
• Lecture 6: Concept of Orthogonal Trajectory
• Lecture 7: Numericals and Non Homogeneous DE Cases with Tricks
• Lecture 8: Numericals on Non Homogeneous D E
• Lecture 9: Variation of Parameter Method
• Lecture 10: Cauchy Euler's Differential Equation
• Partial Differential Equation
• Lecture 1: Partial Differential Equation Basics
• Lecture 2: Solutions of Partial Differential Equation
• Lecture 3: Wave Equation
• Lecture 4: Heat Equation Solution
• Numerical Method
• Lecture 1: Basics of Numerical Method
• Lecture 2: Regular Falsi Method
• Lecture 3: Secant Method & N R Method
• Lecture 4: Numericals
• Lecture 5: Numericals
• Lecture 6: Numerical Solution of ODE
• Lecture 7: Runge Kutta Method of 4th Order
• Transform Theory
• Lecture 1: Laplace Transform Basics
• Lecture 2: Properties of Laplace Transform
• Lecture 3: Initial Value Theorems & Laplace Theorems on Derivatives
• Fourier Series
• Lecture 1: Fourier Series Basics
• Complex Function
• Lecture 1: Complex Function Basics
• Lecture 2: Numerical Session
• Lecture 3: Milne Thomson's Method
• Lecture 4: Taylor Series and Laurent Series
• Lecture 5: Laurent Series Part-2
• Lecture 6: Residue, Cauchy Integral Theorem & Formula
• Lecture 7: Numerical
• Probability
• Lecture 1: Probability Basics
• Lecture 2: Conditional Probability Basics and Conceptual Problems
• Lecture 3: Conditional Probability and Concept of Bayes Theorem
• Lecture 4: Numericals
• Lecture 5: Numericals
• Lecture 6: Random Variable Basics
• Lecture 7: Numericals
• Lecture 8: Binomial Distribution
• Lecture 9: Poisson's Distribution
• Lecture 10: Exponential Distribution
• Lecture 11: Uniform Distribution
• Lecture 12: Normal Distribution
• Series of Real numbers
• Lecture 1: Basics of Real Sequence Infinite
• Lecture 2: Concept of Convergent Sequence and CPS
• Physics (ATC & AO)- English
• Important Formulas
• Physics Formula Book PDF
• Quiz (PDF)
• Units and Measurements Quiz
• Kinematics Quiz
• Modern Physics Quiz
• Optics Quiz
• Thermodynamics Quiz
• Electrostatics Quiz
• Units and Measurement
• Lecture 1: Dimensional Analysis
• Lecture 1: Dimensional Analysis (PDF)
• Lecture 2: Error Analysis
• Lecture 2: Error Analysis (PDF)
• Lecture 3: Significant Errors
• Lecture 3: Significant Errors (PDF)
• Kinematics
• Lecture 1: Motion in 1 Dimension
• Lecture 1: Motion in 1 Dimension (PDF)
• Lecture 2: Motion in 1 Dimension
• Lecture 2: Motion in 1 Dimension (PDF)
• Lecture 3: Motion in 2 D
• Lecture 3: Motion in 2 D (PDF)
• Lecture 4: Relative Motion
• Lecture 4: Relative Motion (PDF)
• Lecture 5: Laws of Motion
• Lecture 5: Laws of Motion (PDF)
• Lecture 6: Translational Equilibrium and Translational Dynamics
• Lecture 6: Translational Equilibrium and Translational Dynamics (PDF)
• Lecture 7: Constrain Relation (Wedges, Strings, Pulleys)
• Modern Physics
• Lecture 1: Dual Nature (PDF)
• Lecture 1: Dual Nature
• Lecture 2: Dual Nature
• Lecture 2: Dual Nature (PDF)
• Lecture 3: Dual Nature
• Lecture 3: Dual Nature (PDF)
• Lecture 4: Atoms
• Lecture 4: Atoms (PDF)
• Lecture 5: Atomic Nucleus
• Lecture 5: Atomic Nucleus (PDF)
• Lecture 6: Numericals
• Lecture 6: Numericals (PDF)
• Lecture 7: Atomic Nucleus
• Lecture 7: Atomic Nucleus (PDF)
• Lecture 8: Atomic Nucleus
• Lecture 8: Atomic Nucleus (PDF)
• Lecture 9: Previous Year Questions
• Lecture 9: Previous Year Questions (PDF)
• Ray Optics
• Lecture 1: Basics of Ray Optics
• Lecture 1: Basics of Ray Optics (PDF)
• Lecture 2: Refraction
• Lecture 2: Refraction (PDF)
• Lecture 3: Optical Instruments
• Lecture 3: Optical Instruments (PDF)
• Lecture 4: Problems
• Lecture 4: Problems (PDF)
• Lecture 5: Prism
• Lecture 5: Prism (PDF)
• Lecture 6: Prism Questions
• Lecture 6: Prism Questions (PDF)
• Lecture 7: Lens Theory
• Lecture 7: Lens Theory (PDF)
• Lecture 8: Lens Theory Problems
• Lecture 8: Lens Theory Problems (PDF)
• Wave Optics
• Lecture 1: Wave Optics Basics
• Lecture 1: Wave Optics Basics (PDF)
• Lecture 2: Superposition and Coherence
• Lecture 2: Superposition and Coherence (PDF)
• Lecture 3: Interference
• Lecture 3: Interference (PDF)
• Lecture 4: Interference Numericals
• Lecture 5: Interference Numericals (Part-2)
• Lecture 4 & 5: Interference Numericals (PDF)
• Lecture 6: Interference Numericals (Part-3)
• Lecture 6: Interference Numericals (Part-3) (PDF)
• Lecture 7: Fresnel Bi-Prism and Lloyd's Mirror Experiment
• Lecture 7: Fresnel Bi-Prism and Lloyd's Mirror Experiment (PDF)
• Lecture 8: Fresnel and Lloyd's Numerical
• Lecture 8: Fresnel and Lloyd's Numerical (PDF)
• Lecture 9: Interference in Thin Films
• Lecture 9: Interference in Thin Films (PDF)
• Lecture 10: Interference in Thin Films (Numericals)
• Lecture 10: Interference in Thin Films (Numericals) (PDF)
• Lecture 11: Newton's Ring
• Lecture 11: Newton's Ring (PDF)
• Lecture 12: Diffraction
• Lecture 12: Diffraction (PDF)
• Lecture 13: Fraunhoffer Diffraction and Validity of Ray Optics (PDF)
• Lecture 13: Fraunhoffer Diffraction and Validity of Ray Optics
• Lecture 14: Diffraction Grating
• Lecture 14: Diffraction Grating (PDF)
• Lecture 15: Diffraction and Resolving Power Numericals
• Lecture 15: Diffraction and Resolving Power Numericals (PDF)
• Lecture 16: Polarization
• Lecture 16: Polarization (PDF)
• Thermodynamics
• Lecture 1: Thermodynamics Basics
• Lecture 2: Thermodynamics Basics
• Lecture 3: Thermometric Property and Temperature Relation
• Lecture 4: Zeroth Law of Thermodynamics and Path and Point Function Concepts
• Lecture 5: Energy Analysis
• Lecture 6: Fixed Mass Energy Analysis
• Lecture 7: Formula of Work Interaction in Several Processes
• Lecture 8: Comparisons and Representation on P-V Curve
• Lecture 9: Heat and Values in Various Processes and FLOT
• Lecture 10: Free Expansion, Control Volume Analysis, SFEE and Throttling Processes
• Lecture 11: Energy Quality, Concept of Entropy, AE and Irreversibility
• Electrostatics
• Lecture 1: Electrostatics Basics
• Lecture 1: Electrostatics Basics (PDF)
• Lecture 2: Electric Field
• Lecture 2: Electric Field (PDF)
• Material Science
• Lecture 1
• Magnetism and Matter Notes PDF
• Gravitation
• Lecture 1: Gravitation (Full Course)
• Semiconductor
• Lecture 1: Semiconductor (Full Course)
• Lecture 1: Introduction of Management
• Lecture 2: Introduction of Management
• Lecture 3: Introduction of Management
• Lecture 4: Introduction of Management
• Lecture 5: Introduction of Management
• Lecture 6: Introduction of Management
• Process of Management (Part-1)
• Lecture 1
• Lecture 2
• Lecture 3
• Lecture 4
• Process of Management (Part-2)
• Lecture 1
• Lecture 2
• Lecture 3
• Lecture 4
• Lecture 5
• Lecture 6
• Emerging Concepts in Management
• Lecture 1
• Lecture 2
• Miscellaneous
• Lecture 1
• Lecture 2
• Lecture 3
• Practice Quiz Video
• Lecture 1: 200 Important MCQs

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