Reading is by far the best way to improve your English vocabulary. Even as a native English speaker, the more I read the more I expand my vocabulary every day without even trying.
يوفر هذا الوصف إيجازا مقتضيا لأهم خصائص المقرر ومخرجات التعلم المتوقعة من الطالب تحقيقها مبرهنا عما أذا كان قد حقق الاستفادة القصوى من فرص التعلم المتاحة ولا بد من الربط بينها وبين وصف البرنامج.
يتم في هذا المقرر فهم المواضيع التالية:
استراتيجيات الصيانة وجدولتها، التعرف على اجزاء منظومات التبريد والتكييف وملحقاتها، فهم اجراءات الصيانة وعملياتها، تحليل الاعطال وتشخيصها، لاعداد كادر صيانة قادر على القيام بالمهام المناطة به وكذلك قيادة فريق الصيانة لاجهزة التبريد والتكييف.
يتم في هذا المقرر فهم المواضيع التالية:
انواع المخططات وطبقاتها كذلك المخططات الرمزية التنفيذية والتنسقية ورسم منظومات التكييف والتبريد مع فهم كامل الرموز والمصطلحات الداخلة فيها كذلك دراسة مخططات لمشاريع متكاملة لابنية سكنية او لتطبيقات صناعية.
Objective of Course
- Engineering Knowledge: Apply the knowledge of mathematics, natural science, engineering fundamentals, and an engineering specialisation to the solution of complex engineering problems
- Problem Analysis: Identify, formulate, research literature, and analyse complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences
- Design/Development of Solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations
- Investigation: Conduct investigations of complex problems using research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions
- Modern Tool Usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modelling to complex engineering activities with an understanding of the limitations
- The Engineer and Society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal, and cultural issues and the consequent responsibilities relevant to the professional engineering practice
- Environment and Sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for the sustainable development
- Individual and Team Work: Function effectively as an individual, and as a member or leader in diverse teams and in multidisciplinary settings
- Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions
Heat transfer is the science that seeks to predict the energy transfer that may take place between material bodies as a result of a temperature difference.
The science of heat transfer seeks not merely to explain how heat energy may be transferred, but also to predict the rate at which the exchange will take place under certain specified conditions.
Most readers will be familiar with the terms used to denote the three modes of heat transfer: conduction, convection, and radiation. In this course we seek to explain the mechanism of these modes qualitatively so that each may be considered in its proper perspective.
Theory of Machines may be defined as that branch of engineering science which deals with the study of relative motion between various elements of a machine and the forces which act on them.
The course provides students with instruction in the fundamentals of theory of machines. The Theory of Machines and Mechanisms provides the foundation for the study of displacements, velocities, acceleration.Rather than relying on symbolic manipulations, the field of numerical analysis examines algorithms that provide approximations to mathematical problems using numerical values (as distinguished from discrete mathematics). Rather of seeking for the precise answers to issues, this field of research focuses on numerical approaches that aim to obtain approximations. Nowadays, numerical analysis is used not just in the traditional academic disciplines of engineering and the physical sciences, but also in the social sciences, humanities, medicine, business, and even the arts. As computational power continues to rise, more intricate numerical analysis may be used to create mathematical models that are both detailed and realistic for use in research and engineering. Ordinary differential equations (used in astronomy to predict the movements of planets, stars, and galaxies), numerical linear algebra (used in data analysis), stochastic differential equations (used in medicine and biology to simulate the behavior of cells), and Markov chains are all examples of numerical analysis.
In the absence of contemporary computers, numerical approaches often made use of hand-interpolation formulae derived from extensive printed tables of data. Since the middle of the 20th century, computers have been employed to calculate the necessary functions, although many of the same formulae are still in use in software programs today.
The numerical perspective may be traced all the way back to the very oldest mathematical texts. In keeping with this lengthy heritage, numerical analysis employs approximate solutions within predetermined error boundaries rather than providing accurate symbolic answers translated into numbers that are relevant solely to observable phenomena.
SolidWorks : برنامج (تطبيق) تصميم ميكانيكي ثلاثي الابعاد بمساعدة الكمبيوتر. يعمل هذا البرنامج تحت بيئة مايكروسوفت وندوز تم تطويره من قبل شركة SolidWorks في فرنسا. يستخدم سوليد ووركس حالياً أكثر من مليوني مهندس ومصمم في أكثر من 165,000 شركة حول العالم. كما أن ثلاث من الجامعات الألمانية اعتمده برنامج (Solidworks) كبرنامج مقرر لطلبتها كما أنه برنامج تصميم معتمد في كثير من الشركات العالمية والوكالات البحثية مثل وكالة أبحاث الفضاء الأمريكية ناسا. يمتاز سوليدووركس بسهولة النمذجة وتحريك النموذج واختباره.هذا البرنامج الأول في مجاله والذي يختص بتصميم المجسمات الهندسية ثلاثية الابعاد. يقدم حلا متكاملا لمشاهدة التصميمات الهندسية بشكل ثلاثي الأبعاد وواقعي إلى أقصى حد. فهو يعتبر المحاكي الأمثل والذي سيساعدك في خلق رؤية أوضح لتصاميمك واختراعاتك الهندسية وسيسهل لك العمل بشكل ملحوظ.