Struggling with MATLAB? Whether you're a beginner or tackling advanced simulations, our one-on-one online tutoring is here to help you master MATLAB step-by-step. We offer personalized lessons tailored to your level, covering: Basics of MATLAB programming Data analysis & visualization Numerical methods & simulations Signal processing & control systems MATLAB for engineering, math, and science courses Help with assignments, projects, and exam prep

This preparation session is dedicated to students aiming for preparatory classes for scientific Grandes Ecoles (CPGE), with a particular focus on the subjects of Physics and Engineering Sciences. The goal is to strengthen the foundations and deepen the knowledge to succeed. 1. Mechanics: Kinematics: Study of rectilinear and circular movements, position vectors, speed and acceleration. Dynamics: Newton's laws, work and energy, kinetic energy theorem. 2. Electromagnetism / Electrokinetics: Electrostatics: Electric charges and fields, electric potential, capacitance. Magnetostatics: Magnetic fields, Lorentz forces, electromagnetic induction. Alternating Currents: RLC circuits, resonance, impedance. 3. Thermodynamics: Principles of thermodynamics: Internal energy, heat, work, first and second principles. Ideal and real gases: Equations of state, thermodynamic transformations. 4. Industrial sciences: Automatic Linear, Kinematic, Static. For more information and to register for the preparation session, please contact me. Good preparation and success in your studies! .

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.).

These courses provide a comprehensive understanding of the fundamental principles of thermodynamics and fluid mechanics, emphasizing real-world applications in engineering, physics, and environmental systems. Students will develop problem-solving skills through theoretical concepts, numerical examples, and interactive simulations. Key Topics Covered: Thermodynamics: Laws of thermodynamics (Zeroth, First, Second, Third) Thermodynamic systems & processes (isothermal, adiabatic, etc.) Entropy, enthalpy, and heat engines PV diagrams & cycle analysis (Carnot, Rankine, Brayton) Phase transitions & properties of pure substances Fluid Mechanics: Fluid properties (viscosity, density, pressure) Bernoulli’s equation & conservation laws Laminar vs. turbulent flow (Reynolds number) Boundary layers, drag, and lift forces Pipe flow analysis & pump systems

Dive into the dynamic world of engineering and science with this comprehensive course designed for aspiring engineers and scientists. This course is structured to provide you with a robust foundation in key principles and practices that are essential in these fields. You'll explore fundamental concepts in physics, chemistry, and mathematics, and learn how to apply these principles to solve real-world problems. The course covers critical topics such as mechanics, thermodynamics, materials science, and electrical circuits. In addition to theoretical knowledge, you'll engage in hands-on projects and experiments that illustrate practical applications. You'll develop skills in data analysis, experimental design, and technical communication, preparing you for advanced study or a career in engineering and science. Join us to unlock the potential of engineering and science, and start your journey towards innovation and discovery.

🔹 Does your child feel overwhelmed by Maths or Physics? 🔹 Struggling with tricky exam questions and falling behind? 🔹 Worried about their confidence before GCSEs or A-Levels? I’m a engineer turned tutor with experience in aerospace & Formula 1, and I help students master Maths & Physics with clear explanations, real-world applications, and proven exam techniques. I have tutored and mentored student from GCSE to University degree level. 💡 Why Parents Trust Me: ✅ Results-Driven – My students consistently improve by 1-2 grade levels ✅ Exam-Ready Focus – I teach how to tackle tricky questions confidently ✅ Structured Learning – No more confusion, just clear, step-by-step guidance ✅ Boosts Confidence – Many students start enjoying the subject again! ✅ Flexible & Reliable – I fit around busy school & family schedules 📚 Subjects Covered: 🔹 Maths: Algebra, Geometry, Trigonometry, Statistics, Calculus, Mechanics 🔹 Physics: Forces, Electricity, Waves, Thermodynamics, Kinematics 🔹 Engineering Fundamentals: Problem-solving, applied mathematics 🎯 Who is this for? ✔️ Students aiming for top grades (A/A)* in GCSE & A-Level exams ✔️ Those who struggle with confidence & exam pressure ✔️ Parents who want structured, high-quality tutoring that delivers results

As an experienced teacher with a PhD in mechanical engineering, I offer specialized courses to master essential concepts in mechanical engineering: Modules taught: 🔹 Continuous Media Mechanics (MMC): Introduction and in-depth study of the basics of continuous media mechanics, behavior laws, and practical applications. 🔹 Elasticity: Study of deformations and stresses in elastic solids, theory and resolution of complex problems. 🔹 Strength of Materials (RDM): Analysis and calculation of stresses, deformations, and dimensioning of mechanical structures. Who are these courses for? 🎓 Students in preparatory classes, engineering schools, or technical faculties. 🏗️ Professionals wishing to strengthen their knowledge in mechanical engineering. Why choose my courses? ✔️ Courses adapted to beginner to advanced levels. ✔️ Teaching based on concrete examples and typical exercises. ✔️ Personalized support for your projects, exams or competitions. ✔️ Clear and detailed course materials provided in each session. Course organization: Format: Individual or group lessons. Modality: Online or in person (depending on your location). Duration: Flexible depending on your objectives.

I give private lessons in Mathematics - Analysis - Matrices - Statistics - Algebra - Geometry - Physics - Chemistry - thermodynamics-fluid mechanics-RDM to students in French or Arabic programs. Homework help for Baccalaureate students. preparation for the competition. For more information, do not hesitate to contact me, guaranteed response in a few minutes up to 6 hours maximum.

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.

In these Engineering Classes, I guide, mentor, and facilitate your growth and intuitive technical understanding. I share my experiences with Aerospace/Aeronautical/Mechanical/Electrical Engineering, helping you develop your skills and techniques to tackle any problem, whilst adapting our lessons to your natural method of learning. Contact me here to introduce yourself and tell me more about the topics that you would like additional support with. This could be, for example, Aero/ Flight Dynamics, Control Systems, Dynamic Structures, Business Data Analysis, or any other topics. Whatever university you are studying at, I am certain that you will leave our sessions fulfilled, inspired, and driven to take on any challenge that may come your way. Contact me now for my availability, so that we can organize your first session as soon as possible. I look forward to meeting you! __________________________________________________________________________________ Previously supported students from top universities such as: UK: - Imperial College London (+ Business School) (ICL) - University College London (UCL) - King's College London (KCL) NL: - Delft University of Technology (TUDelft) - University of Amsterdam - University of Groningen SW - ETH Zurich - Swiss Federal Institute of Technology AU - Queensland University of Technology - University of Queensland - Griffith University __________________________________________________________________________________ A little about myself: My name is Anh; I was born and raised in the U.K. and I have over 8 years of international experience, tutoring Middle School to University Level Maths, Sciences, and Engineering, with 4 years of working experience in the Aerospace and Maritime industry. I have a fun, ambitious, and outgoing personality with a passion for music, cooking, and trying new things. Whilst teaching and mentoring, I am patient and adaptable to the needs of each of my students. I am working as an Engineering Specialist/Consultant, holding: - a degree as a Master of Aeronautical Engineering from Imperial College London, - A*A*A* A-Level Further Maths and Physics, with, - straight A*s in (GCSE) Maths, Physics, Chemistry, Biology, English, Geography. I was also previously mentored and tutored myself and having been through the problems and achievements first-hand, I want to help others do so as well.

Hi, I offer courses in mathematics, physics, as well as mechanical engineering courses for all levels (high school and university). As an engineer with a doctorate in mechanical engineering, I have a solid experience in teaching and I am passionate about supporting pupils and students towards success. Whether you are looking for academic support, exam preparation, or to deepen your knowledge in these subjects, I am here to help you with teaching methods adapted to your needs. Feel free to contact me for more information !

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 work as a post-doctoral researcher in the Aerospace Engineering Faculty at TU Delft (Delft University of Technology). My extensive teaching experience covers a wide range of engineering courses, including: - Mathematics: algebra, linear algebra, probability, calculus, differential equations, intellectual math, and advanced engineering mathematics. - Mechanical Engineering: Statics, Dynamics, Mechanics of materials, Mechanical design, control, vibration, Fluid Mechanics, Thermodynamics, Heat transfer, Engineering drawing, Applied Mechanics, Composite Structures, Flight, Machine Elements, Manufacturing, 3D printing, and more. - Physics: mechanics, momentum and energy, electricity, charge and current, electric and magnetic fields, waves, particle physics, nuclear decay, astrophysics, cosmology, oscillations, etc. - CAD/CAM Software: Autocad, Solidworks. - Mechanical Design Packages: ANSYS, APDL programming, ABAQUS, MATLAB, Symbolic MATLAB, LS-DYNA. My research and teaching interests are diverse, including: • Additive manufacturing • Mechanical metamaterials • Acoustical metamaterials • Electromagnetic metamaterials • Aeroacoustics • Soft matter and soft robotics • Fatigue and fracture mechanics • Experimental mechanics • Multiscale numerical modelling • Biomaterials • Porous materials • Manufacturing of medical devices and implants • Deep learning • Image processing • Topology optimization • Origami and Kirigami structures • Self-folding and self-assembly structures • Tissue engineering • Permeability in porous materials • Fluid-Solid Interaction I understand that not all teachers excel in teaching Engineering and Mathematics courses and explaining their importance to students. Courses with strong mathematical backgrounds may become boring for students who lack a solid mathematical basis. To address this, I take a student-centered approach, starting from the basics to actively engage all students, including those with weaker mathematical backgrounds. I also provide practical examples to demonstrate the real-world significance of what they are learning, inspiring and fostering their interest in the subject matter. If you have any additional questions before starting a class, please feel free to ask me. I am here to assist! :)

The TU Delft Aerospace Engineering Bachelor is one of the most prestigious bachelor programmes the Netherlands has to offer. With it being highly sought-after by students all around the globe, there is a highly competitive selection procedure which needs to be completed to get admitted to this popular degree. A massive part of this admission procedure is the selection exam, consisting of three different tests: Mathematics, Physics and First-Year Material. As a cum laude graduated Aerospace Engineer at TU Delft, who has also been tutoring since 2017, I have a lot of valuable experience and knowledge of the program to help you out with the right preparation to get in. Moreover, after having successfully helped two international students get a spot last year, I have decided to continue preparing an additional custom lesson plan for each student, with the admission syllabus as its basis. With my calm and stepwise explanation, weaker topics will be addressed and your solution procedures will be polished. Each lesson will either be theory, exercise-based or an opportunity to talk about the admission, what to expect from the study and whether it is a right fit for you.

As a second-year student in the BSc Aerospace Engineering program at the Technical University of Delft (TU Delft), I have experience with the university entrance process as well as being qualified to explain the curriculum and requirements in depth. necessary. In addition to offering guidance on the essential topics for your entrance exam, I can provide you with personalized classes for in-depth preparation. These classes would include a detailed review of key concepts, intensive practice with relevant exercises, and specific tips to effectively approach the exam. My goal is to help you acquire the confidence and skills necessary to be successful in the admissions process in addition to the first year material that may seem a little more difficult or unknown. Additionally, I will be happy to discuss with you the study program itself, as well as explore the various opportunities available in Delft to complement your academic experience.