# | Subject | Credit Hours |
---|---|---|

1 | Arabic Language (iii) | 2 |

2 |
English Language (iii) |
2 |

3 |
Islamic Culture (iii) |
2 |

4 |
Differential Equations |
3 |

5 |
Material Science |
2 |

6 |
Fundamentals of Electrical Engineering |
3 |

7 |
Fundamentals of Mechanical Engineering |
2 |

8 |
Introduction to Computer |
2 |

9 |
Workshop (iii) |
- |

# | Subject | Credit Hours |
---|---|---|

1 |
Complex Functions |
2 |

2 |
Material Mechanics |
2 |

3 |
C Language Programming |
2 |

4 |
Vector Analysis |
2 |

5 |
Electrical Cercuit Theory |
3 |

6 |
Analog Electronics Fundamentals |
3 |

7 |
Digital Systems Design (i) |
3 |

8 |
Electronic Workshop |
1 |

**ENG213: English language III**

Authentic Engineering text I & II, Transition words core vocabulary - vocabulary in context summary writing - report writing scientific writing

definitions & preliminary problems, ordinary differential equations of order 1, higher-order differential equations, 2nd order differential equations, general differential equations of higher order, linear differential equations with variable coefficients, series solution, the operator D & Laplace transformation.: differentiation of vector, congruencies, line integration, surface integration, Stoke’s theorem, Tetser terminology

**GEN 215: Introduction to Computer Science: **

Introduction, historical background, computer generations, definitions, components, data representation in the computer and binary system, types of programs (language, data base systems, etc) DOS, Windows, text processing and WinWord, spread sheets, charts and program design and algorithm, advanced information on DOS (system operation and important files)

**GEN 216: Material Science :**

Metal constructions, chemical bonds linking molecular and atoms of matter, matter composition and its effect on material properties, physical structure and its effect on the properties of matter, metals and non-metals, equilibrium charts, electroplating, heat treatment. Polymers: rubber, fiber, plastics and their properties and use. Ceramics: soil, glass and materials molten in high temperatures. Ceramics properties and use.

**GEN 218: Principles of Electrical Engineering:**

Electrical circuit laws and DC circuits, Ohm’s law, Kirchev’s law, equivalent circuits, Thiphion’s rule, magnetism and magnetic circuits, induction and AC, phase relations, single phase AC, three phase AC, introduction to AC machines, semi-conductors.

**MAT 220 : Complex Functions**:

Functions, differentiation, integration, remainders, harmonic, applications on fluids, static electricity & heat transfer in 2-dimensions. vector analysis special functions and partial differential equations, vector analysis (derivatives & applications), special functions, integral transfer, partial differential equations, 2nd order partial differential equations, solution using terminal conditions, application.

**MAT 221: Vector Analysis**,

linear transformation, linear equations, plane geometry, straight line, surface in 3-D space, sphere and spherical coordinates, other quadric surfaces, 2nd degree equations in 3-D space, pole & polar, multi-variable functions, functions and derivatives, Tayler’s form, isolated points, multiple integration, series, general series, Fourier’s series.

**COM 222: C Programming Language:**

Introduction to History of computers, Principles of designing a program, C Basics (Usage of Conditional statements, Looping and iteration, Arrays and strings, Functions and Procedures)

**ELX 224: Electrical Circuits theory**

Introduction to Signal and Waveforms, Sinusoidal Steady State Analysis, Transient Analysis, Electrical Network Analysis, State Variable Analysis of RLC Networks, Elements of Network Synthesis and Filters.

**ELX 225: Analog Electronics Principles**

Fundamentals of Semiconductor Devices, P-N Junction as a Circuit Element, Special Types of Diodes, Bipolar Junction Transistor, Transistor Amplifier Circuits.

**ELX 226: Digital Systems Design I**

Analog systems vs. digital systems, Review of Number Systems and Codes, Basics of Logic gates, Algebraic Methods for Analysis the Logic Circuits, Methods of Simplification of digital Functions, Modular Combinational Logic, and Introduction to Sequential Logic circuits