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Private lessonsMechanical EngineeringOnline Mechanical Engineering lessons

240 online mechanical engineering teachers

240 online mechanical engineering teachers

أبوبكر - Castleford, United KingdomC$28
C$28, Maths, CAD Auto desk inventor , Mechanical Engineering
Trusted teacher: Mechanical engineering is a broad field that covers various topics 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 (e.g., 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 like 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 (e.g., 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.).
Cad software · Mechanical engineering
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Azdine - Casablanca, MoroccoC$44
C$44Industrial science of engineering, Mechanical engineering
Trusted teacher: As an Associate Professor of Industrial Engineering (CPGE), a State Engineer in Mechanical Engineering and a Doctor (PhD), I offer private mechanics lessons all year round, remotely or at home, for pupils and students. For who ? Objective of excellence (improvement, ranking, selective applications). Refresher courses in case of gaps or weak foundations. Consolidation of fundamentals and mastery of useful techniques throughout the course. Targeted preparation for tests, exams and oral presentations. CPGE competitive entrance exams: CCINP, Centrale, Mines-Ponts, MP, PSI, TSI streams. Technological Baccalaureate: STM, STE, SMB (refresher and intensive training). Project support (final year project, TIPE, mini-projects). Revision/preparation: review the essentials of the past year and get ahead. Subjects taught Solid mechanics: kinematics, statics, dynamics, energy (and kinetics). Strength of materials & vibration; elasticity; fracture mechanics. Mechanism theory. Mechanical engineering & mechanical manufacturing (processes, tolerances, metrology). Materials: mechanical characterization; equilibrium diagrams (binary, Fe-C). Thermal and thermochemical treatments. MMC (continuous media): modelling and calculations. CAD/Design: CATIA, SolidWorks. NDT/NDT: principles and applications (basics). Terms and conditions Format: individual or small groups. Location: online (interactive whiteboard, screen sharing, files) or at home. Method: initial diagnosis, personalized work plan, progressive exercises, exam-style questions, annotated corrections, regular assessments. Materials: summary sheets, roadmaps, bibliographies, corrected exercises. Targeted results Solid foundations, operational methods, autonomy and sustainable performance. Effective preparation for assessments and competitions, increased confidence and speed.
Mechanical engineering · Structural engineering · Industrial engineering
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Ian - Prenzlauer Berg, GermanyC$70
C$70University Level Engineering Fundamentals (Calculus, Differential Equations, Physics, etc.)
Trusted teacher: I love the process of teaching and learning alike, because I feel the same joy assisting someone to learn something, as if I had just learned something new and wonderful myself. For university level mechanical or related engineering students, I have over 3 years of official tutoring experience at the University of California, Davis, while studying Aerospace and Mechanical Engineering. I enjoy helping you with Calculus, Differential Equations, Physics, and many more listed below: Differential, Integral, Vector, and Multivariable Calculus, Linear Algebra, Differential Equations, Dynamics, Statics, Fluid Mechanics, Thermodynamics, Thermofluid Dynamics, Mechanics of Materials, and Electrical Circuits and Systems. My tutoring philosophy consists of 3 core principles: - Positive feedback - Asking questions - Pen in your hand Positive feedback means that I will never become impatient with you, over-emphasize what you did wrong, make you feel bad for your mistakes, or make you feel stupid. Comfortably making lots of mistakes will help you learn better and retain your problem-solving process more easily. I will praise and congratulate you often for the concepts that you come to understand, and will point out that even if you don't reach the correct answer, there were many correct thinking-processes that you were using that deserve recognition. Asking questions means that I will never give you the answer directly, but rather confirm what you have right, and ask you targeted questions to help you think differently about the problems you are struggling with. I believe it is the most effective and most enjoyable way to learn something, when you manage to deduce some of the answers to your questions yourself. You will retain the concepts longer and it will better equip you to learn related topics in the future. Pen in your hand means that you will be the one driving the session. I want you to narrate your thoughts, decisions, and reasons for why you write down what you do. This will help understand the problem better by simply speaking it aloud, and it will help me better understand exactly what you do/don't understand.
Mechanical engineering · Physics · Calculus
يحيى - Dubai, United Arab EmiratesC$44
C$44Comprehensive guide to mastering Calculus 1: From foundational principles to solving geometric problems and preparing for university exams
Lesson: This course is a cornerstone for any student aspiring to excel in scientific and technological fields. The lesson focuses on transitioning from traditional mathematics to the world of "instantaneous change" through the study of limits, derivatives, and their vital applications. In this course you will learn: • A deep understanding of Limits and Continuity. • Mastering the rules of differentiation for various functions (trigonometric, exponential, and logarithmic functions). • Applying differentiation to solve real-world problems such as finding maximum, minimum, and time-related rates. • A preliminary introduction to the concept of integration and spaces. This content is designed to be a practical and comprehensive guide to help you excel academically and pass exams with high efficiency. ): Calculus I serves as the bridge between school mathematics and advanced university science. This course is specifically designed to enable students to understand the "language of movement and change" that governs our world, and it is a fundamental and essential requirement for engineering, artificial intelligence, and science students at top universities nationwide. What will the student learn on this academic journey? • The philosophy of limits and continuity: We will break the barrier of fear of limits, to learn how to predict the behavior of functions at critical points and how to determine the continuity of curves, which is a vital basis for understanding the stability of geometric systems. • The Art of Derivative: The student will practice extracting the instantaneous rate of change using advanced differentiation rules (Product, Quotient, and Chain Rules), with a strong focus on trigonometric and logarithmic functions that appear frequently in EmSAT exams. • Real-world applications (Optimization): We will not be satisfied with paper-based solutions, but will learn how to use differentiation to find optimal solutions (maximum and minimum values), such as determining the shortest path or achieving the highest technical efficiency at the lowest possible cost. • Introduction to Integration: We will lay the foundation for the science of integration by understanding the inverse relationship between differential and integral calculus, which will fully prepare the student for the Calculus 2 course. Why choose this lesson? We don't just solve equations; we aim to build an "analytical mindset." This approach simplifies complex concepts, connects them to practical realities, and equips students with smart strategies for tackling the most frequently asked exam questions in UAE university curricula, ensuring not just success, but excellence and an A grade. Additional information for the student (more detailed): • Prerequisites: The student should preferably have a good understanding of the basics of algebra and the ability to solve equations and inequalities. • Required tools: A scientific calculator (preferably advanced models such as those allowed in EMAST), and a graph book to track the behavior of the curves. • Session approach: We follow a strict and organized system of explanation based on progression from easy to difficult, while providing training examples that simulate actual final exams.
Engineering · Mechanical engineering · Math
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