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Engineering lessons in Jeddah

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Description: This immersive course is designed to introduce participants to the core concepts of programming through three versatile languages: C, C++, and Python. The course caters to beginners and enthusiasts aiming to develop a strong foundation in programming logic and syntax using these languages. Topics Covered: 1. Introduction to C Programming: Basic structure, variables, and data types. Control structures: loops and decision-making statements. Functions and modular programming. Arrays, strings, and pointers. 2. Intermediate C++ Programming: Object-oriented programming (OOP) concepts: classes, objects, inheritance, and polymorphism. Standard Template Library (STL): Containers, algorithms, and iterators. File handling and streams in C++. 3. Basic Python Programming: Python syntax, data types, and basic operations. Control flow: loops and conditional statements. Functions, modules, and libraries. Introduction to data structures: lists, dictionaries, and tuples. Teaching Methodology: Layered Learning Approach: Begin with fundamental programming concepts using C and gradually progress to object-oriented concepts with C++. Transition to Python to introduce high-level concepts and application-oriented programming. Practical Coding Assignments: Implement coding exercises and projects in each language to reinforce learning and practical application. Hands-on Workshops: Conduct workshops and coding sessions to apply learned concepts in real-time scenarios. Target Audience: This course is suitable for beginners and individuals with minimal programming experience who wish to acquire a solid understanding of programming logic using C, C++, and Python. Outcome: Participants will gain proficiency in C and C++ fundamentals, along with a basic understanding of Python, empowering them to write, understand, and analyze code in these languages.
Computer programming · Science · Engineering
Trusted teacher: 🌍 Discover the Fascinating World of STEM 🌐 In this interactive and hands-on class, students will explore the wonders of STEM disciplines. From conducting captivating experiments to diving into cutting-edge technology and engineering challenges, there's something for every budding scientist and innovator. 🧪 Hands-On Learning and Discovery 👩‍🔬👨‍💻 Our curriculum emphasizes hands-on learning, encouraging students to roll up their sleeves and engage with real-world STEM concepts. Whether it's experimenting with chemical reactions, coding software applications, or designing engineering marvels, students will actively apply STEM principles. 🤔 Critical Thinking and Problem-Solving 🧠 STEM is not just about facts; it's about nurturing critical thinking and problem-solving skills. Our class fosters an environment where students learn to analyze, question, and develop innovative solutions to complex challenges—skills that are invaluable in any future endeavor. 🚀 Inspiration for Future Innovators 🌠 Our mission is to inspire the next generation of STEM innovators. Through captivating experiments, collaborative projects, and exposure to real-world STEM applications, students will be empowered to envision themselves as future scientists, engineers, and tech leaders. 👩‍🔬 Experienced Instructors and a Supportive Learning Community👨‍🔬 Our experienced instructors are passionate about STEM and dedicated to nurturing young talents. Join a supportive learning community where curiosity is celebrated, questions are encouraged, and every student has the opportunity to shine. Embark on a thrilling STEM adventure with us! "Exploring STEM Wonders: Unleash Your Curiosity" is your gateway to unlocking the mysteries of the universe and shaping a brighter future through the power of STEM. 🔬🌍🚀
Math · Science · Engineering
Aeronautics is an incredibly captivating and cutting-edge field that has the power to inspire students to pursue their studies in aerospace engineering. It offers a fascinating blend of science and technology, allowing students to explore the principles of flight, aerodynamics, and aircraft design. With aeronautics, students can venture into the realm of space exploration, unmanned aerial vehicles, supersonic flight, and future air transportation technologies like electric aircraft and vertical take-off and landing vehicles. The field of aeronautics presents endless opportunities for innovation and pushing the boundaries of what's possible in the skies, making it an enticing and rewarding area of study for aspiring aerospace enthusiasts. TOPICS COVERED: Aerodynamics: The study of airflow around aircraft and how it affects their performance Aircraft Structures: Understanding the design and analysis of aircraft components for safety and durability. Propulsion Systems: Learning about different propulsion technologies, such as jet engines and propellers. Flight Mechanics: Analyzing the dynamics and control of aircraft during flight. Aircraft Design: The process of conceptualizing, modeling, and optimizing aircraft configurations. Aircraft Stability and Control: Understanding the stability and control characteristics of aircraft during various maneuvers. Aerospace Materials: Learning about materials used in aircraft construction and their properties. Unmanned Aerial Systems (UAS): Understanding the design and operation of drones and other unmanned aircraft.
Engineering · Structural engineering · Mechanical engineering
In this class, you will be learning how to use Visual Basic for Applications (VBA) to program and solve engineering problems. The type of class can be adapted to your needs, from a beginner (VBA basics) to an experienced user (advanced numerical methods). Complete Program: Programming -Introduction to Visual Basic for Applications (VBA) -Subroutines basics: variables and syntax -Indexed variables and input data -Communication Excel/VBA: read and write to/from the worksheet -Loops and conditional statements -External Functions Numerical Methods -Introduction to numerical methods: linear, non-linear equations and convergence criteria -Errors and approximations -Solving non-linear equations – Bracketing methods: Bisection and False Position -Solving non-linear equations – Iterative methods: Newton, Secant and Fixed Point -Solving systems of linear equations – Direct methods (n < 1000): Gauss Elimination and LU Decomposition -Solving systems of linear equations – Direct methods (n < 3): Substitution method and Crame Rule -Solving systems of linear equations – Direct methods (Tridiagonal matrices): Thomas algorithm -Solving systems of linear equations – Iterative methods (large matrices): Jacobi, Gauss-Seidel -Solving systems of linear equations – Gauss-Seidel convergence and relaxations -Solving systems of non-linear equations – Newton and Fixed-point -Differentiation: Taylor series and approximations -Differentiation: first and second order differences: centred, forward and backward -Integration: Lagrange interpolating polynomials -Integration: Trapezoidal, Simpson’s 1/3, Simpson’s 3/8 Rules -Integration: Composite rules Advanced Numerical Methods -Introduction to ODE’s and PDE’s -Solving ODE’s – Initial Value Problems: Euler and Runge-Kutta -Solving ODE’s – Boundary Value Problems: Shooting Method, Finite Differences -Solving ODE’s – Finite Differences for linear BVP: Gauss and Thomas -Solving ODE’s – Finite Differences for non-linear BVP: Newton-Raphson, Gauss-Seidel -Solving PDE’s – Discretization and transformation into SODE -Solving PDE’s – Application to Elliptic and Navier-Stokes -Solving PDE’s – SEDO’s Stiff problems: Runge-Kutta and Predictor/Corrector methods.
Engineering · Computer modeling
Engineering Concepts for Undergraduates is a comprehensive and engaging course designed to provide foundational knowledge and a broad understanding of key engineering principles. Aimed at undergraduate students, this course serves as a stepping stone for aspiring engineers, allowing them to explore the fundamental concepts that underpin various engineering disciplines. Throughout the course, students will delve into the core concepts that are vital to the field of engineering. They will be introduced to the fundamental principles of mathematics, physics, and materials science, and learn how these principles are applied to solve real-world engineering problems. By gaining a solid grasp of these foundational concepts, students will develop a strong analytical and problem-solving mindset, which are essential skills for any engineer. The course will cover a wide range of engineering disciplines, providing students with a glimpse into the diverse fields they can specialize in. Through interactive lectures, hands-on experiments, and collaborative projects, students will explore the principles of civil engineering, mechanical engineering, electrical engineering, chemical engineering, and more. They will also have the opportunity to discover the interdisciplinary nature of engineering and the importance of teamwork in solving complex challenges. Engineering Concepts for Undergraduates goes beyond theoretical knowledge by emphasizing practical applications. Students will engage in design projects and case studies that simulate real engineering scenarios, allowing them to apply their learning to solve problems creatively and efficiently. They will learn about engineering ethics, sustainability, and the role of engineers in shaping the world we live in. The course will be delivered by experienced faculty who are passionate about engineering education. They will provide guidance and mentorship, fostering a supportive learning environment where students can ask questions, engage in discussions, and actively participate in their own learning journey. By the end of the course, students will have a solid foundation in engineering principles, an understanding of the different engineering disciplines, and the ability to apply their knowledge to practical situations. Whether they choose to pursue further studies in a specific engineering field or enter the industry, this course will equip them with the essential concepts and skills necessary for success in their engineering careers.
Mechanical engineering · Engineering · Chemical engineering
Bilingual French / English, Doctor in Physics and Engineer, Graduated from Cambridge and Stanford, I was a university professor, researcher at EPFL and I teach Physics, Chemistry, Engineering, Nanotechnology, Mathematics and many other other subjects at all levels (from secondary to Doctorate). I have taught at Stanford, Cambridge, and EPFL among others and have always had very good reviews from students and other teachers. I also conduct official interviews every year for candidates who want to join one of the largest universities in the world. Professional, and respectful of students, I offer courses in French and English of very high quality in all scientific subjects (math, physics, chemistry, biology) until maturity, and in physics, chemistry, engineering, nanotechnology, electricity, fluid mechanics and other more advanced subjects at university. I am patient in my explanations, and my lessons are educational, interactive, fun and enriching. I use a lot of concrete examples to explain difficult scientific concepts which allows my students to better digest the subjects taught, to get up to speed and to progress quickly. I have helped many students quickly become more confident and pass their exams. I also prepare students for entrance exams in England (Oxbridge, etc...) and in American universities (SAT, ACT, GRE, ...). In addition, I give private lessons online (on Zoom) using the latest technologies with interactive whiteboards, and I have very good feedback and students who are very satisfied with their progress. I highly recommend trying my private online lessons. =================================== Bilingual French/English, former professor, I have a PhD in Physics from Cambridge, a MS in Engineering from Stanford, and over 20 years of experience teaching and tutoring Physics, Chemistry, Materials Science, Engineering (Electrical, Mechanical, Fluid, Optics, ...) and Nanotechnology at some of the top universities in the world (incl. Stanford and Cambridge), as well as science and math subjects for GCSE and A-level. I am passionate about tuition, and helping students understand important concepts and methods. I also teach and tutor in more advanced science and math subjects (partial differential equations, transforms, etc...). I have helped many students quickly gain confidence and improve their score in exams. Dr. David will help you develop your skills, build self-confidence, successfully prepare for exams and achieve top grades from GCSE to university graduate level in Physics, Math, Chemistry and Engineering. He will help you understand concepts not only from theory but also from a practical point of view, so that you can grow into an independent learner and thinker. Dr. David is also an interviewer for students applying to one of the top universities in the world, and he can help you successfully prepare for US (SAT, ACT, GRE,) and UK university entrance exams so that you can get into the top school of your choice. I offer engaging, interactive and fun online tutoring (using videos, slides, whiteboards, etc...) to quickly bring you up to speed, revise courses and successfully prepare for exams.
Physics · Chemistry · Engineering
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