The course deals with the concept and basics of the programming language, and learns how to design an integrated program to solve mathematical and engineering operations using the loops and teaches the student how to solve matrices using the programming languages prescribed in the curricula, and learn ways to verify and apply the program correctly.
The field of strength of materials, also called mechanics of materials, typically refers to various methods of calculating the stress and strains in structural members, such as beams, columns, and shafts. The methods employed to predict the response of a structure under loading and its susceptibility to various failure modes takes into account the properties of the materials such as its yield strength, ultimate strength, young's modulus, and Poisson's ratio. In addition, the mechanical element's macroscopic properties (geometric properties) such as its length, width, thickness, boundary constraints and abrupt changes in geometry such as holes are considered.
اهداف المقرر
:ان يكون الطالب قادرا على ان
- يعرف اساسيات المساحه المستويه.
- يطبق القوانين و الطرق التي تعلمها لاستفاده منها عمليا في المشاريع الهندسيه .
- يعرف الطالب الادوات المستخدمه في المساحه المستويه .
- يتعلم الطالب على كيفية استخدام جهاز التسويه.
- ينظم المعلومات المعرفيه لمادة المساحه المستويه و يحتفظ بها في ذاكرته تمهيدا" لاستخدامها عمليا و يطور معلوماته من خلال استكماله لدراسة المساحه الهندسه في المرحله الثانيه
- يتعلم حساب المساحات
محتوى المقرر
- المسح الطبوغرافي
- الخطوط الكنتورية
- الثيودلايت
- اللاتجاهات والزوايا
- المضلعات
- الاحداثيات
- المنحنيات العمودية
- المنحنيات الافقية
Fluid mechanics is the study of fluid behavior (liquids, gases, blood, and plasmas) at rest and in motion. Fluid mechanics has a wide range of applications in civil , mechanical and chemical engineering, in biological systems, and in astrophysics.
Fluid mechanics refers to a broad engineering field that studies the fundamental behavior of fluids, substances known to statically deform under applied shear stresses. Within this field, a number of sub-disciplines have developed. Water resources and hydraulic engineering deals primarily with flow through pipe networks, channels, and other systems that control the quantity, quality and distribution of water; aerodynamics involves the flow of air around aircraft; and gas dynamics focuses on fluids with significant variations in density, such as high-speed gas flowing though a nozzle or the flow of chemically reactive gases.
Building construction involves the process of designing, planning, and constructing structures such as homes, offices, schools, hospitals, and more. The construction process typically involves several stages, including site preparation, foundation laying, framing, roofing, electrical and plumbing work, insulation, and finishing. The materials used for building construction can vary depending on the project's requirements and location, but some common materials include wood, concrete, steel, brick, and stone. It is important to ensure that buildings are constructed to meet safety standards and regulations to protect occupants from potential hazards such as fires, earthquakes, and other disasters. Proper building construction is crucial for creating safe, functional, and sustainable structures that can serve communities for years to come.
Concrete Technology
Course Objective
Studying cement manufacturing and properties of cement and aggregates and studying fresh and hardened concrete and concrete mix design.
Approach to the study of concrete