Comprehensive Concrete Structural Design Using ETABS

If you want to lear the profession, which can't be replaced by AI, here I am to help you with that. If you want to master(or learn) electrical engineering with the essential skills needed to effectively utilize Revit and AutoCAD in the design and documentation of electrical systems within building projects, book first lesson with me. Through a combination of theoretical knowledge and practical hands-on exercises, students will learn how to leverage the powerful features of both software tools to create detailed electrical designs, generate accurate drawings, and collaborate seamlessly with other stakeholders in the construction process. Key topics covered include: - Fundamentals of electrical engineering principles and standards. - Introduction to Building Information Modeling (BIM) concepts and workflows. - Utilizing Revit for electrical system design, including lighting, power distribution, and circuiting. - Integrating AutoCAD for detailed drafting, annotation, and documentation of electrical plans. - Performing electrical load analysis and simulation to ensure system efficiency and compliance. - Best practices for organizing, managing, and sharing electrical project data effectively. Whether you are a beginner electrical engineer looking to enhance your skills or a newcomer to Revit and AutoCAD seeking to specialize in electrical design, working with me will provide a solid foundation to excel in the field of building services engineering. For more information, please do not hesitate to text me.

Graduated from the external aggregation in Industrial Sciences and holder of a doctorate in mechanical engineering, I offer courses adapted for students of technical schools and faculties. My expertise allows me to offer quality support to master the fundamental and advanced concepts of the following disciplines: Courses offered: 🔧 Solid mechanics: Analysis and understanding of mechanical phenomena. 📐 Rational mechanics: Resolution of mechanical systems using rigorous approaches. ⚙️ Strength of Materials (RDM) and Mechanical Materials (MMC): Understanding the mechanical properties of structures and materials. 🏗️ Mechanical construction: Design, dimensioning, and production of mechanical systems. 💻 Industrial computing: Programming and automation in an industrial context. Why choose my courses? ✔️ Clear and structured teaching methodology. ✔️ Practical and theoretical experiences adapted to academic expectations. ✔️ Preparation for exams, competitions, and technical projects. Course format: Target audience: Students from leading universities, technical faculties, and engineering training centers. Organization: Individual or group courses, in person or online. Teaching materials: Corrected exercises, detailed summaries, and practical simulations.

Facilitated teaching of all subjects related to the Civil Engineering Department, Physics and Mathematics in a simple way with the possibility of explanation via recorded videos or live online classes or at the student’s home in an easy, simple and distinctive way for all educational stages and colleges...and good luck to everyone, God willing.

Do you want to master the most used design software and bring your ideas to life in 3D? Do not search anymore ! I offer specialized courses to guide you through the exciting worlds of CATIA V5/V6, Inventor, Fusion 360, FreeCAD and 3D printing. CATIA V5/V6: Discover the design software preferred by engineers for creating complex models and precise assemblies. Inventor: Dive into the world of mechanical design and learn how to develop innovative products with this powerful software. Fusion 360: Create organic models, run simulations, and hone your design and engineering skills. FreeCAD: Explore the basics of parametric design and create 3D models ready for manufacturing. ️ 3D printing: Bring your designs to life! Learn how to use 3D printers, from modeling to concrete production. Whether you're a beginner or looking to improve your skills, my classes are suitable for all levels. With interactive lessons, hands-on projects, and expert guidance, you'll progress quickly and with confidence. Don't wait to explore the endless potential of 3D design and 3D printing. Join me on this exciting adventure and start creating your own 3D masterpieces today! Don't miss this opportunity to develop in-demand skills in 3D design and printing. Join me for enriching and practical lessons you won't forget! See you soon for our first class together!

I hold a PhD in Mechanical Engineering and currently, I am working as a post-doctoral researcher in the Aerospace Engineering Faculty at TU Delft (Delft University of Technology). I have extensive experience in teaching various Mechanical design packages, including LS-DYNA, ANSYS, APDL programming, ABAQUS, MATLAB, SolidWorks, Cura, and Symbolic MATLAB. Some of the finite element modeling and numerical simulations I have worked on include: - Multiscale finite element modeling for fatigue crack propagation in porous materials. - Analysis of multiple-layer sandwich structures' resistance to bird-strike impact [Read paper]. - Investigation of debonding propagation in aluminum and glass/epoxy composite joints under fatigue loading using Fracture Mechanics principles. - Computational prediction of the fatigue behavior of additively manufactured porous metallic biomaterials. - Study of the effect of material type, stacking sequence, and impact location on pedestrian head injury in collisions. If you have any additional questions before starting the class, please don't hesitate to ask me. I am here to help! :)

"A Civil Engineer from Zagazig University, I have hands-on experience in using advanced engineering software such as Revit and Navisworks for Building Information Modeling (BIM), structural analysis and design tools like SAP2000, ETABS, and Robot, as well as AutoCAD for drafting and design. I am also proficient in Excel for data analysis and project management. With the ability to apply these tools in real-world projects, I can provide practical examples to help students better understand engineering applications. I aim to deliver an exceptional learning experience in engineering software to help students develop their technical skills."

Architect and Onthological Coach | Mentorships for entrepreneurs that are starting I plan the classes and exercises depending on the goal of the student. The programs that I teach are: AutoCAD 2D Sketchup Lumion 11 Photoshop Illustrator Dependiendo de la necesidad del alumno podemos aprender puntualmente alguna herramienta de diseño en particular de las siguentes: - AutoCAD 2d - Sketchup - Lumion 11 - Photoshop - Illustrator O mismo doy clases particulares despejando dudas sobre las materias o cursos de diseño que estén realizando.

I specialise in teaching AutoCAD, Rhino, 3Ds Max, Illustrator, InDesign and Photoshop to students of various levels. My style of teaching is focused on practice. All classes have their goal - to expand the theory and practice to create something complete at the end. I think practice, whether or not you are a beginner or more advanced, is important for learning. Each class is personalized to the needs and interests of the students. I can also realise personal 2D, 3D design projects.

Course description: This comprehensive course is designed for architects, designers, engineers, and creatives who are passionate about 3D modeling and parametrics. You will learn to master Rhino 3D, a powerful 3D modeling software, as well as Grasshopper, a parametric plugin that allows you to generate complex shapes using visual programming. Course objectives: Learn how to use Rhino's basic and advanced tools to create accurate and detailed 3D models. Master the concepts of parametric modeling using Grasshopper to generate dynamic and adaptive shapes. Understand how Rhino and Grasshopper integrate to automate design processes and improve efficiency. Create real-world projects ranging from designing simple geometric shapes to complex, custom structures. Course content : Introduction to Rhino 3D: Interface, basic commands, and navigation in the 3D workspace. Advanced modeling techniques: Creation of surfaces, solids and networks of curves. Introduction to Grasshopper: Understanding the logic of visual programming and its applications in parametric design. Parametric Design: Using Grasshopper to create complex shapes based on variables and constraints. Practical application: Completing a complete project by combining Rhino and Grasshopper, from design to completion. Prerequisites: No specific prerequisites are necessary for this course. However, a basic knowledge of 3D design or modeling software is a plus. Target audience : Architects and designers wishing to deepen their skills in 3D modeling and parametric design. Engineers and technicians interested in design automation and the integration of digital solutions into their creative process. Methodology: The course combines theoretical explanations with practical exercises and case studies. Question-and-answer sessions and workshops will allow participants to work on personal projects throughout the training.

Currently in my 3rd year of architecture, I give architecture project lessons but also coach lessons, Sketchup, lumion. I can also give English lessons. At the beginning it is always difficult to master the software and to materialize your ideas well and it is for this reason that I wish to help others.

Are you a student in preparatory classes (CPGE) and are you preparing your Supervised Personal Initiative Work (TIPE) on the theme: "Games, Sports" common to the MP, PSI and TSI sectors? Join my specialized training and supervision to stand out in this academic project. Why Choose My Training? Benefit from my supervision as an engineering student with in-depth knowledge of the theme “Games, Sports”. As a former CPGE student, I have successfully supported many students in the choice, development and complete preparation of their TIPE subject, from theoretical study to experiment and numerical simulation (MATLAB, COMSOL , ANSYS, CATIA, SolidWorks, etc.). Personalized Approach: Each student is unique. My coaching adapts to your skills, your levels, your interests and your objectives, in order to maximize your potential. 🤝 Continuous Support: From start to finish of your project, benefit from unlimited email support between sessions to answer all your questions to overcome your obstacles. 🏆 TIPE Complete Supervision Program: The support I offer includes the following elements: - Choice of the subject - Scientific documentation - Development of the problem, motivation, inking, MCOT, DOT - Theoretical portion - Experiment or Simulations - Realize the added value - Assistance in producing the final presentation (Structuring, aesthetics, content, etc.) - Preparation for the oral test You have the flexibility to: 1) choose the level of support that suits you, whether it is specific training on one of the aspects mentioned above or 2) complete support throughout your project. NB: regarding preparation for the oral test, we will work together on structuring your presentation, anticipating possible questions from the jury and strengthening your oral communication skills. This targeted preparation will give you the confidence to excel not only in completing your TIPE, but also when presenting it to the jury.

Eng. Alaa Basyouni Master's degree in Civil Engineering. Graduate of Zagazig University Assistant Lecturer at the Canadian University of Ahram. I teach foundation mathematics and physics for primary, preparatory and secondary schools using the best possible study methods. Experience in teaching IG curricula and part-time experience in international schools in Egypt such as Sunrise

This course offers a comprehensive exploration of structural engineering principles, designed for both beginners and those seeking to deepen their knowledge. We will cover foundational concepts such as load analysis and structural systems, before progressing to advanced topics including indeterminate structures analysis. Join me to build a solid foundation and advance your existing knowledge through a set of appropriate theoretical concepts and practical examples

Course Description: The training is designed to familiarize learners with 2D and 3D modeling of building plans and industrial plans. The course aims at the use of CAD software, being the cutting-edge software, used in several large and small companies especially in the civil, industrial and especially aeronautical fields, and subcontractors. At the end of this course, learners will be able to design architectural plans and sets of objects of simple and complex shapes on 2D and 3D modeling, surface and assembly side. In addition, he will be able to make parametric models, analyze the hierarchical structure of the model, be able to edit it, assign materials and assemble objects. To provide basic theoretical and practical knowledge to calculate and model different models like foundation plan, ground floor, elevation and many more and as well as industrial on manufacturing of machine parts. Ultimately, this will enable you to promote the development of professional skills that will enable the learner to effectively perform tasks and access senior positions in this field.

Mechanical engineering topics is a broad field that covers various related to the design, analysis, and manufacturing of mechanical systems. Here's a brief overview of the core subjects you would typically study during a mechanical engineering program at university: Mathematics: Calculus: For understanding changes in systems, modeling dynamic behavior, and analyzing forces and motions. Linear Algebra: Used for solving systems of equations, matrix operations, and structural analysis. Differential Equations: Essential for modeling physical systems that change over time (eg, motion, heat, fluid flow). Probability and Statistics: For analyzing data, reliability, and risks in engineering systems. Physics: Mechanics: Studying the forces and motion in solid bodies (statics and dynamics). Thermodynamics: Understanding energy systems, heat transfer, and the conversion of energy between mechanical forms. Fluid Mechanics: Focuses on the behavior of fluids (liquids and gases) in motion and at rest, which is essential for systems like pumps, engines, and turbines. Material Science: Exploring the properties of materials and how they behave under various conditions (stress, temperature, etc.). Statics and Dynamics: Statics: Study of forces in equilibrium, such as the forces on structures or machines that are not moving. Dynamics: Study of forces and motion in systems that are in motion, including vibrations, acceleration, and kinematics. Strength of Materials: Learning how materials respond to various forces, including stress, strain, bending, and torsion. This is essential for designing durable and safe structures and machines. Manufacturing Processes: Understanding different manufacturing techniques such as casting, welding, machining, 3D printing, and material forming. Concepts of production planning, quality control, and design for manufacturability. Control Systems: Study of systems that maintain desired outputs (eg, in robotics or automated systems). This includes understanding feedback loops and stability. Machine Design: Focus on designing mechanical components (gears, shafts, bearings) to perform specific tasks reliably and efficiently. Heat Transfer: Studying how heat moves through materials and fluids, which is critical for applications like engines, HVAC systems, and electronics cooling. Dynamics of Machinery: The study of moving mechanical components, their vibrations, and how to design them to minimize failure and wear. Computational Methods: Learning how to use software tools (like CAD, FEM, and CFD) for designing, simulating, and analyzing mechanical systems. Robotics and Automation: Study of robotic systems, automation in manufacturing, and how to integrate mechanical components with electronic control systems. Renewable Energy and Sustainability: Topics related to sustainable engineering solutions, energy-efficient systems, and the use of renewable energy sources (wind, solar, etc.).