Course image Thermodynamics 2 E
Evening Study
Thermodynamics is an exciting and fascinating subject that deals with energy, which is essential for sustenance of life, and thermodynamics has long been an essential part of engineering curricula all over the world. It has a broad application area ranging from microscopic organisms to common household appliances, transportation vehicles, power generation systems, and even philosophy. 
Course image Strength of Materials E
Evening Study

The strength of a material is defined as its capacity to sustain a load without breaking or undergoing significant plastic deformation in the field of materials mechanics. The study of forces acting on a material and the resulting deformations is known as "strength of materials." When a force is applied to a mechanical component, the resulting internal forces are measured in units called stresses. All kinds of deformation, up to and including total breaking, may result from stresses acting on the material. When the amount by which a material is stretched or compressed is measured in units, the term "strain" is used to describe the substance's deformation.

Evaluation of a mechanical member's load capability requires calculation of the stresses and strains produced inside the member. To do so, it is necessary to provide a detailed description of the member's shape, restrictions, loads, and material attributes. Tensile or compressive axial loads, as well as rotary loads, may be applied (strength shear). Calculating the stress and strain at each place inside a member is possible given a full description of the loading and the geometry of the member. Knowing the stress and strain inside a member allows one to determine that member's strength (load bearing capability), stiffness properties, and stability (ability to keep its original shape).

Calculated stresses may be compared to the member's material yield or ultimate strength. It is possible to compare the member's computed deflection to use-based deflection criterion. The applied load may be compared to the buckling load of the member, which can be determined. The dynamic response of the member may be computed using the member's stiffness and mass distribution, and then compared to the acoustic environment in which the member will be employed.

When discussing material strength, engineers often refer to the yield stress, which is the stress at which a material deforms beyond the point where the deformation can be restored to its original shape simply by removing the pressure. Maximum allowable stress is what we mean when we talk about a material's ultimate strength. Strength at fracture is defined as the stress level at which fracture begins (the last stress value recorded).

Course image Computer Applications 2 E
Evening Study

The MATLAB course introduces the students to the features of the software and its capabilities. At the end of the semester, the students will learn to use the software to solve simple equations, create plots, create and solve matrices and use logical commands. Conditional commands and loops are also taught to students.

Course image Mathematics 2 E
Evening Study

يتضمن المنهج مواضيع في الرياضيات لغرض تهيئة كوادر من المهندسيين بحيث تواكب مسارات ومستويات التطور ، حيث ان الرياضيات تعد داينمو الحركة والتطور، وحلقة الترابط والتواصل بين بقية العلوم. 


حيث تنمي قدرات الطلبة العلمية ومهاراتهم باتجاه خدمة حياتهم العامة والخاصة وفي مجال عملهم باختصاص الهندسة


Course image Mechanical drawing E
Evening Study

Drawing, as an art, is the picturing of the imagination of the scene in its totality by an individual—the Artist. It has no standard guidelines and boundaries. Engineering drawing on the other hand is the scientific representation of an object, according to certain national and international standards of practice. It can be understood by all, with the knowledge of basic principles of drawing. Machine drawing is the indispensable communicating medium employed in industries, to furnish all the information required for the manufacture and assembly of the components of a machine.

Course image Fluid Mechanics E
Evening Study

Fluid mechanics is the branch of physics concerned with the mechanics of fluids (liquids, gases, and plasmas) and the forces on them.  It has applications in a wide range of disciplines, including mechanical, aerospace, civil, chemical and biomedical engineering, geophysics, oceanography, meteorology, astrophysics, and biology. A fluid is a substance that does not have a specific shape, but rather takes the shape of its container and is characterized by its ability to flow. Therefore, the expression includes liquids and gases and is divided into two parts: Compressible fluids are fluids whose density changes with the change in pressure applied to them, such as gases Incompressible fluids are fluids whose density does not change with the change in pressure on them, such as fluids. Fluid Mechanics can be divided into fluid statics, the study of fluids at rest; and fluid dynamics, the study of the effect of forces on fluid motion.

Course image Refrigeration and air conditioning E
Evening Study

Teaching the student, the principles of refrigeration and air conditioning, and the different types of refrigerants and how to use their tables and charts, psychometric chart for air, and the vapor compression system components.


Course image English Language 2 E
Evening Study

The English language is an Indo-European language in the West Germanic language group. Modern English is widely considered to be the lingua franca of the world and is the standard language in a wide variety of fields, including computer coding, international business, and higher education.