First Semester
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Second Semester
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Course content: -
Algebra: Binomial theorem, mathematical induction, partial fraction, theory of equations, the solution of nonlinear equations in one variable, numerical solutions, matrices. Differentiation: The definition of function, trigonometric function and algebraic functions with graph of these functions, fraction functions. Limits, continuity, derivative, the differential of algebraic and trigonometric functions, Rolle's Theorem, mean value theorem, applications on derivative, l'Hopital's theorem, sketching curves, maximum and minimum value and its theorems. Credit Hours: 4 (3+2+0) |
Course content: -
Physical measurements – Dimensional analysis – Systems of units Elasticity of solids: Stress-Strain end modulus of elasticity gravity: Newton’s law for gravitational force – potential energy – Kepler’s laws – Satellite motion. Fluid Static: Hydro-static pressure –Pascal’s principle. Fluid dynamics: Ideal fluid – Equation of continuity – Bernoulli’s equation and its applications – viscosity – Experiments. Heat and Thermodynamics: Temperature – amount of heat – first law of thermodynamics – modes of heat transfer – Kinetic theory of gasses – Velocity distribution of gasses – Second law of thermodynamics – Carnot cycle – Thermal cycle and thermal engine - Principles of air condition – Experiments. Credit Hours: 4 (3+2+2) |
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Drawing sets – Lettering and dimensions – Drawing techniques and skills – Geometric constructions – Orthographic projection of point, line, plane, and solids – Auxiliary projection – plane sections of solids – Intersection of solids and surfaces of revolution – Development – Orthographic views of a given object – Deduction of a missing view – Sectioning – assembly drawing – Computer Graphics – Steel – symbols of electric circuits. Credit Hours: 1 (0+4+0) |
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Study of engineering history starting from first civilizations, the importance of engineering, types of energy and its new forms, transportation, communications as parts of human culture and creative process environmental and social activities during world history. Credit Hours: 2 (2+0+0) |
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A review of the basic rules of English, American and pronunciation skills, build words, reading, listening, speech and conversation, plug-in practical language. Follow-up improvement in oral expression skills, speaking, reading and writing activities include technical and language laboratory, strengthen understanding, which leads to increased susceptibility to communicate. Credit Hours: 2 (2+0+0) |
Course content:
The definition of integration, integral of algebraic and trigonometric functions, the definition of summations, the result of summation of odd and quadratic numbers, area under curve and its relation with integration, basic theorems in integration, the methods of integration, inverse functions of trigonometric functions and hyperbolic functions, improper integral. Analytic Geometry and Algebra: The conic sectors, general form of equations from second degree and its classifications the solution of linear equations in several variables for rank matrix, the solution of homogeneous and non-homogeneous equations.Credit Hours: 4 (3+2+0) |
Course content:
Electrostatics: Electric charge and Coulomb’s law – Conductors and insulators – Superposition principle of electric forces – nature of electric charge – Electrostatic field –Electric field lines- Electric field due to point charge, group of charges, and continuous charge distribution – Gauss’s law and its applications – Electrostatic potential –Relations between the electric field and electric potential – Electric potential due to point charge, group of charges, and continuous charge distribution – Potential gradient – Electrical potential energy – Polarization of dielectric media – Gauss’s law in the case of dielectric media – Displacement vector _ Energy stored in the electric field – Capacitors –Experiments. Electrodynamics: Electric current and electric resistance – Current density – Ohm’s law – Electric power – semiconductors – Electromotive force and potential difference - Direct current circuits – Kirchhoff’s rules for multi-loop circuits. Magnetism: Magnetic field – Magnetic force on a conductor carrying current – Sources of magnetic fields – Biot-Savart law – Amper’s law – Faraday’s law and electromagnetic induction – Lenz’s law – Electric field caused by induction – Induction coefficients – Magnetic energy – Magnetic properties of materials – diamagnetic and paramagnetic materials –Gauss’s law for magnetism - Displacement current – Generalization of Amper’s law – Maxwell’s equations. Credit Hours: 4 (3+2+2) |
Course content:
Kinematics: Frames of reference – Position, velocity and acceleration of particles – Motion in one and two dimensions – Linear and curved motion – Simple Harmonic Motion and some of its applications – Circular motion – Newton’s laws of motion – Motion under constant and variable acceleration Kinetics: Equation of motion – Work and energy – Kinetic energy and work done – momentum –collision and its applications – Principle of conservation of energy. Credit Hours: 3 (2+2+0) |
Course content:
Gaseous state, material and thermal balance in fuel combustion processes, solution properties, dynamic balance in physical and chemical processes, electrochemical and corrosion, building materials, pollution treatments, water treatments, petrochemicals, lubricants, polymers, painting, artificial cleaners. Credit Hours: 4 (3+2+2) |
Course content:
Drawing sets – Lettering and dimensioning – Drawing techniques and skills – Geometric constructions – Orthographic projection of point, line, plane, and solids – Auxiliary projection – plane sections of solids – Intersection of solids and surfaces of revolution – Development – Orthographic views of a given object – Deduction of a missing view – Sectioning – assembly drawing – Computer Graphics – Steel – symbols of electric circuits.Credit Hours: 1 (0+4+0) |
Introduction to production technology and industrial process, industrial safety, engineering material, iron and steel production, casting processes, forming processes, welding technology, machining process and bench working, measurements, introduction to industrial engineering.
Credit Hours: 2 (1+0+2) |
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