Bachelor in Aeronautical Engineering

Faculty of Engineering - Department of Aeronautical Engineering

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Description

The Aerospace Engineering program is concerned with graduating engineers with a broad and in-depth knowledge of the main aspects of aeronautical engineering.

Objectives

To provide graduates with the engineering, design and soft skills required to become professional aeronautical engineers, as well as enable them to pursue careers in relevant professional disciplines. Graduating engineers with extensive and deep knowledge and understanding of key aspects of aerospace engineering. Develop a set of skills to raise the efficiency of graduates to communicate effectively orally and in writing and use drawings and diagrams to convey engineering ideas and concepts. To develop graduates' ability to apply technology to engineering problems. To prepare graduates with the ability to solve design problems and the technical skills necessary to achieve these solutions. To provide graduates with the research skills required for post-graduate study and employability skills required to work in various fields of aviation.

Outcomes

Apply the basic theoretical principles underlying aeronautical engineering

 Safely use workshop and laboratory equipment for manufacturing and experimental investigation

 Preparing reports in prescribed and recommended forms

Use software and information and communication technology appropriately

 Apply scientific and other knowledge to analyze and evaluate information and data and find solutions

Certificate Rewarded

Bachelor of Aeronautical Engineering

Entry Reuirements

The student wishing to join the bachelor's program in the department must study at least two semesters in the general stage and his cumulative average is more than 50%, and the student must complete the following courses:

Physics 2

Mathematics 2

Statics

Study Plan

The Bachelor in Aeronautical Engineering prepares students to qualify for Bachelor in Aeronautical Engineering. The student studies several subjects which have been carefully chosen in this major to cover its different aspects.

It comprises 10 Semesters of study, in which the student will study a total of 151 units, which include 56 units of general subjects, and 95 major units, 6 of elective units. In addition to a final project in the student's major.

Study plan for this program is shown below:

1st Semester

Code Title Credits Course Type Prerequisite
GE121 Engineering Mechanics 03 General +

Statics of particles; forces in plane and spree; statics of rigid bodies : Equivalent system of forces; equilibrium in two and three dimensions, work and energy, analysis of trusses, frames, and machines, free body diagram; kinematic; stability friction, centroids and center of gravity-lines, area and volumes. Moment of inertia of areas and masses.

GS115 Chemistry 03 General +

Measurements and SI units; chemical equations and stoichiometry; structures of atoms and periodic relationships, chemical compounds: The gaseous state; solutions-electrolytes and non-electrolytes; acids and bases; thermochemistry; chemical equilibrium; ionic equilibrium I and II; organic chemistry.

GS111 Physics I 03 General +

GH141 Mathematics I 03 University requirement +

The main objective of this course (English I) is to encourage the leaners to acquire the English language skills they need to pursue their specialized courses in different Departments of the Faculty. In order to achieve this purpose, emphasis should be relied upon the formal grammar of the language, reading and writing activities in the classroom and listening comprehension and note-taking practice in the language laboratory. Undoubtedly, this can help the students to express themselves freely while dealing with technical terminology, vocabulary items and structures related to their subject areas. The overall program is a complimentary and prerequisite course for all Engineering Departments (Four hours per week). It covers the following:- Intensive Reading of different passages containing materials the students need to follow their departmental courses (vocabulary exercises, comprehension questions, contextual references, affixation, etc.). •Description of the laboratory experiments. Scientific vocabulary including the use of dictionary, punctuation, word-order, spelling, word- formation, etc. •The study of English verb tenses, active forms and passive constructions. The study of English nouns (kinds, functions, derivation) pronouns, adjectives, articles, adverbial phrases and so forth. •Summary writing.

GS101 Mathematics I 03 General +

GH150 Arabic I 02 University requirement +

Review of Arabic courses taken in high school, including construction of Arabic sentence, spelling and punctuation (Part one).

2nd Semester

Code Title Credits Course Type Prerequisite
GH152 Technical Writing Report 01 University requirement GH142 +

Writing technical reports, Report preparation and presentation. Preparation of minutes of meetings. Translation of technical document.

GS200 Computer Programming 03 General GS102 +

Program design using C, data types and operators. Control structures: If statement, If...else, While loops, Case statement. 1–D and 2-D Arrays, File I/O, Functions (Ready functions and User Defined Function), Engineering applications: Matrix Operations. Introduction to Object Oriented Programming (OOP). Introduction to Mat lab Commands: Handling requests, Performing basic calculations and displaying results. Use of Mat lab in Matrix Operations: Matrix addition, Subtraction.

GS115L Chemistry Lab 01 General +

Some experiments related to GS115 course.

GS112 Physics II 03 General GS111 +

Electrostatics: changes and fields, the electric potential; electric current; the magnetic field, electric fields in matter. Photoelectric effect, Einstein’s explanation and quantum theory of the hydrogen atom. Radioactive decay law derivation.

GS102 Mathematics II 04 General GS101 +

· Integration: definite and indefinite integrals, and their applications (area under a curve, area bounded by two curves, solids of revolution (disc method)). · Transcendental functions: exponential, logarithm functions, the hyperbolic functions, hyperbolic inverse functions, and their derivatives and integrations · Techniques of integration: (change of variables to find integrations, integration by parts, integration by substations, integration using partial fraction, reduction formulas). · The complex numbers: (definition, properties, conjugates, absolute values, polar forms, and determining roots). · Functions of several variables: (partial derivatives, implicit differentiation, chain rule and its applications, total differentiation and its applications, total differentiation of derivatives of second and higher order, maxima and minima, and Lagrange multiplier method).

GH151 Arabic Language II 01 University requirement GH150 +

Review of Arabic courses taken in high school, including construction of Arabic sentence, spelling and punctuation (Part two).Accustom the student to clear expressions of his ideas in pronunciation and writing and the good use of punctuation marks. Developing the student's literary taste so that he realizes the aesthetic aspects of speech styles, meanings and images. Identify the beauty of the Arabic language and literature, and that the student acquires the ability to study the branches of the Arabic language. Develop the student's spelling and writing ability and skill so that he can write correctly in all respects.

GH142 English II 03 University requirement GH141 +

This program (English II) aims at developing the students' scientific and vocational skills. It is specially designed to introduce the learners to the basic patterns of technical terminology at the introductory stage and thereafter deals with more advanced topics. Thus the students can go further and become creative by way of discussion and various original contributions to the materials. It also offers an opportunity for the learners to evolve their communicative competence and comprehend their departmental contents with a restricted period of time. However, this course tends to give instructions to the learners in a variety of subjects such as:- Intensive Reading of passages (texts) including materials to students' needs with comprehension questions, contextual references, vocabulary exercises and affixation and so forth. The study of scientific and technical vocabulary which involves the use of dictionary, spelling, picking up the meaning form the context, rules of affixation, etc. Description of the laboratory experiments. Revision and study of basic English verb tenses, active and passive voice in scientific technical English. The English noun phrases, relative clauses, deletion of relative relation in active and passive voice. The study of English pronouns, adjectives, adverbial phrases, etc. Summary Writing.

GE129 Workshop Technology 02 General +

Industrial safety; engineering materials and their mechanical and physical properties; classifications, ferrous and nonferrous metals, natural and synthetic materials; introduction to manufacturing processes: casting, welding, forging, rolling, extrusion; sheet metal working methods, metal machining.

GE127 Engineering Drawing 02 General +

Introduction; definitions, conventions. Instrument, dimensioning, some geometrical constructions; e.g., drawing of some polygons, parallel lines, line and arc tangents. Projection; theory, types of projection, one view projection, multi-view projection, first and third angle projection, applications, including missing line views. Sectional vie s; complete section, half section, pant section, removed sections, revolved section, and applications.

3rd Semester

Code Title Credits Course Type Prerequisite
GE222 Engineering Mechanics II 03 General +

Introduction to dynamics. Kinematics of particles; Kinematics of rigid bodies. Three-dimensional motion of a particle relative to a rotating frame (Coriolis acceleration). D’Alembert’s principle. Kinetic energy of a rigid body in plane motion. Kinetics of rigid bodies in three dimensions; motion of a gyroscope. Introduction to mechanical vibrations.

GE133 Properties of Materials 03 Compulsory +

Introduction to dynamics. Kinematics of particles; Kinematics of rigid bodies. Three-dimensional motion of a particle relative to a rotating frame (Coriolis acceleration). D’Alembert’s principle. Kinetic energy of a rigid body in plane motion. Kinetics of rigid bodies in three dimensions; motion of a gyroscope. Introduction to mechanical vibrations

GE129L Workshop Technology Lab 01 General GE129 +

Some experiments related to GE129 course prepared by specified department.

GS112L Physics Lab 01 General GS111 +

Experiments about sound, light, electricity, magnetism, heat and electro-chemical conversion.

GE125 Engineering Graphics 03 General +

Introduction, the purpose of Descriptive Geometry, different types of projection. Representation of point, line arid plane. Position problems. Metric problems. Projection on auxiliary views. Polyhedrons, development and intersections. Circle and sphere. Cone and cylinder. Curved surfaces, development arid Intersection.

GS203 Mathematics III 03 General GS102 +

Linear Algebra. · Definition of matrices, Types of matrices, and their properties. · Operations on matrices and their properties. · Elementary row operations and reduced row form (Echelon form) · Systems of linear equations and their solutions using reduced matrix and matrix inverses. · Determinants, their properties, and a determinant formula for matrix inverse. · System of linear equations and their solutions using Cramer’s rule and using elementary transformations. · Eigenvalues and eigenvectors and the Hamilton Cayley theorem. · Introduction to fields (Real, complex), vectors, linearly dependent and independent vectors, basis, and dimension. Dot product, cross product, and their applications. · Calculus of vectors; functions of vectors and their derivatives, gradient, divergence and curl. The vector differential operator del.

GS206 Probability and Statistics 03 General GS101 +

Probability: concept of a random experiment and sample space; addition and multiplication laws of probability; conditional probability and independence, Bay’s theorem and its application. Random variables and their probability distribution; Binomial, Poisson, Normal, Gamma, Exponential, Uniform and Cauchy distributions and their properties. Basic statistical concepts: Statistical data, measures of central simple linear regression, regression coefficient and correlation coefficient, non-linear regression. Fitting of linear and non-linear regression to data. Multiple linear regression and multiple correlation coefficient.

4th Semester

Code Title Credits Course Type Prerequisite
EE280 .Fund. of Electrical Eng 03 Compulsory GS102 +

GS204 Mathematics IV 03 General GS102 +

Ordinary differential equations · Basic definitions, first order and first degree differential equations (Separable Equations, Homogeneous and nearly homogeneous equations, Exact equations, Integrating factors, linear equations, Bernoulli equation, Riccati equation, brief discussion of existence and uniqueness of a solution, orthogonal trajectories). · Linear higher order differential equations: theoretical considerations, constant coefficient case, nonhomogeneous equation (variation of parameters method, undetermined coefficients method), and Euler’s differential equation. · Laplace transformations and its inverse, calculating Laplace transformation and its invers, using Laplace transformation on solving linear equations. · System of linear differential equations; solution of differential equations in series; gamma, beta function, Bessel function, modified Bessel function, Legendre polynomials; Spherical harmonics, hyper geometric functions.