Statics, Mechanics of material, Structure, design,

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From 18.06 £ /h

The course begins with a quick reminder of the static calculation of beams and the notion of stresses around a point,
followed by three chapters on the calculation of stresses and strains under the effect of shear force, bending moment, and torque. Then come four chapters on calculation methods such as the theorem of the virtual works, the area of moments method, the three-moment method, and lines of influence. And at the end, two chapters
are dedicated to the effect of axial loading covering the buckling design and the compound and deflected bending design.

Extra information

You have to use a scientific calculator

Location

Online from United Arab Emirates

Age

Children (7-12 years old)

Teenagers (13-17 years old)

Adults (18-64 years old)

Seniors (65+ years old)

Student level

Beginner

Intermediate

Advanced

Duration

60 minutes

The class is taught in

French

English

Arabic

Skills

Mechanical engineering

Availability of a typical week

(GMT -05:00)

New York

Online via webcam

Mon

Tue

Wed

Thu

Fri

Sat

Sun

00-04

04-08

08-12

12-16

16-20

20-24

Statics, Mechanics and resistance of materials, metallic structure

17.15 £ /h

The resistance of materials (RDM) is a particular discipline of continuum mechanics, allowing the calculation of the stresses and deformations in the structures of the different materials (machines, mechanical engineering, building and civil engineering).

RDM makes it possible to reduce the study of the global behavior of a structure (relationship between stresses — forces or moments — and displacements) to that of the local behavior of the materials composing it (relationship between stresses and deformations). The objective is to design the structure according to criteria of resistance, admissible deformation and acceptable financial cost.

When the stress intensity increases, there is first elastic deformation (the material deforms in proportion to the applied force and returns to its initial shape when the stress disappears), sometimes followed (depending on the ductility of the material) plastic deformation (the material does not return to its initial shape when the stress disappears, a residual deformation remains), and finally rupture (the stress exceeds the intrinsic resistance of the material).

Anh

4.78

(9)

If you're facing resit exams in engineering and want to make sure you succeed, I’m here to support you. These tailored tutoring sessions are designed specifically to help you overcome challenges, address any gaps in understanding, and reinforce the core principles of your engineering subjects. Together, we’ll revisit key concepts and solidify your foundation so you feel confident tackling future challenges.

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__________________________________________________________________________________

I'm actively supporting students from top universities worldwide, including:

UK:
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The Netherlands:
• Delft University of Technology (TUDelft)
• University of Amsterdam (UvA)
• University of Groningen (RUG)

Switzerland:
• ETH Zurich - Swiss Federal Institute of Technology

Australia:
• Queensland University of Technology (QUT)
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__________________________________________________________________________________

My name is Anh, and I was born and raised in the U.K. With over 10 years of international experience tutoring Maths, Sciences, and Engineering from Middle School to University Level, I’ve supported over 80 students worldwide in unlocking their full potential.

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Youssef

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===================Satisfied or refunded=======================
Hello, I am a doctoral student in electrical engineering and associate professor in engineering sciences, experienced in the field of electrical engineering, I offer courses in engineering sciences (Electronics, automatics, electrical engineering, automation, programming).
Computational Sciences and Technology SNT
IS engineering sciences
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CAPLP and BTS subjects and answers
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CORRECTION OF BTS TESTS

Ahmd

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Statics and dynamics are the main subjects for level one engineering students.
You will understand these subjects perfectly.
Together, you will understand vectors, motion in multiple directions, relative motion, Newton's laws of motion, .... and simple harmonic motion.

Abdeer

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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.

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Mohamed

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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.

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Yassmine

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As a mechanical engineer, I offer tutoring in mathematics, physics and mechanical engineering, adapting each session to the specific needs of the student. My goal is to make these subjects clear and accessible while promoting understanding and practical application of concepts.

Mohamed

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Praise be to God, high competence with academic qualifications and acquired experience.
Good explanation with fluent language and providing a pleasant atmosphere
For review and support to achieve the best possible result, God willing.
With a pre-review of the lessons to ensure the success of the session and to gain the greatest possible benefit, adherence to the teacher's instructions, and provision of school supplies.

Reza

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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).
Key topics that I teach for this course include:
• Calculus: Differentiation & integration, Multivariable calculus
• Linear Algebra: Matrices, vectors, systems of equations, Eigenvalues and eigenvectors
• Differential Equations: First- and second-order ODEs, Laplace transforms
• Complex Numbers: Polar form, Euler’s formula
• Vector Calculus: Gradient, divergence, curl, Line and surface integrals
• Series & Transforms: Taylor series, Fourier series

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.

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Ahmed

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This course is intended for preparatory year university students and all majors that rely on the study of differential and integral calculus (Calculus 1 & 2), such as: engineering in all its branches, natural sciences, computer science, economics, and management, in addition to any field that requires a strong foundation in mathematics.

In this course, we will go through a step-by-step explanation of the concepts of differentiation and integration, starting with limits, derivatives, and their rules, then moving on to practical applications of differentiation, such as maximum rates of change and solving physical and engineering problems. Finally, we will discuss definite and indefinite integration and its various methods of calculation, with practical applications for areas, volumes, and solving equations.

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This course is not limited to simply solving problems, but rather aims to build a solid mathematical foundation that will enable the student to pursue his other university courses more easily.

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This course is designed to guide students through all levels of thermodynamics and heat transfer, from foundational concepts to advanced engineering applications. Whether you’re just starting university, struggling with basics, or preparing for advanced courses, this course will simplify complex topics step by step, using the same strategies I used as a student.

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Overview
Practical lessons covering core and cutting-edge automotive systems, for students, technicians, enthusiasts, and industry professionals.

Key Topics

-Engineering maths

- Engine mechanics, powertrains and chassis design

- Electrical/electronics, hybrid/electric tech

- CAD design, materials and manufacturing

- Diagnostics, maintenance and performance tuning

- Autonomous vehicles, alternative fuels and connected cars

Jammal

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Hi, my name is Jammal and I give math and physics lessons for all school levels.
I'm an aerospace engineer and I'm training to be an airline pilot :)

Mohammed

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Comprehensive explanations of all chapters of Fluid Mechanics for all colleges and institutes in Kuwait, scholarship students, and others, including summaries, explanations, solved examples, and past exams, linking theory with practice. Also included are explanatory videos for all chapters: Fluid Mechanics 1, Fluid Mechanics 2, Hydraulics, and Turbomechanics.

Arthur

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I offer tailored support, adapted to the level, objectives and pace of each student.
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The goal: to make concrete progress, gain method and confidence, with clear, effective and truly personalized teaching.

Valentin

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Holder of an engineering degree in mechatronics from the Mines d'Alès school.
Passionate about technology and knowledge sharing, I am committed to sharing my professional expertise to help students succeed. My career path allows me to provide a concrete and structured perspective on engineering, while building a relationship of trust and support with my students to help them progress.

I offer practical support in Engineering Sciences, from middle school to preparatory classes, drawing on my professional expertise to bring theory to life. My method emphasizes understanding through technical examples and real-world problem-solving, moving beyond the traditional classroom setting, to help you achieve your goals of success in exams or competitive entrance exams.