high level courses in all that concern the civil engineering given by a student engineer 3rd year civil engineering at the Mohammedia School

Hello, Engineer experienced in structural studies offers high-level training in RDM calculation and structure. Training via google meet or zoom. the materials are: Resistance of materials, structural calculation, reinforced concrete calculation

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! :)

transportation engineering is a field that major mostly on various classes of roads ,their design criteria such as horizontal and vertical curves it also combines the structures that comes along within the highways such as tunnels overpasses and underpasses as well as retaining walls

I give lessons in mathematics, physics and civil engineering either in a public place, at the student's home or by webcam. The aim of the course is to understand the material and not to learn it by heart, in order to be able to solve all types of exercises without being destabilized when there is a small modification. I am at your disposal to adapt my course to each one. I like that the course is alive, that there is an interaction between the student and myself. It also ensures that the material has been understood. Above all, feel free to ask all your questions and also to send me your comments. It is always good to have feedback in order to progress. Know that you are all capable of succeeding, for that you have to find the working method that suits you! Have confidence in yourself!

This course is designed for new users of AutoCAD, Revit, or Robot structural analysis, besides learning the program we will discuss topics related to structure and designs, it is not necessary to take all the courses, you can choose one of the 3 programs. AUTOCAD : The main purpose of AutoCAD is to present your work imagination with calculated and specific measurements. AutoCAD is used to create computer-aided designs or software applications including drafting. - AutoCAD develops the application in both the 2D and 3D formats and provides the information to the application. REVIT : Revit Architecture allows you as an engineer, architect, designer, or technician to design and document a virtual representation of your project. Revit Architecture is an integrated architectural design and documentation environment. You create a virtual building model of your design with intelligent building elements. These smart, parametric building elements automatically adjust and interact with the design environment, and at the same time you are creating views such as floor, plans, sections, elevations , schedules, and so on. AUTODESK ROBOT STRUCTURAL ANALYSIS : Autodesk Robot Structural Analysis Professional is a collaborative, versatile, and fast software to help you compete and win in structural design and analysis within a global market. Autodesk Robot Structural Analysis Professional calculates even your most complex models with exceptionally powerful finite element auto-meshing, non-linear algorithms, and a comprehensive collection of over 70 design codes to deliver results in minutes, not hours.

These courses will provide a comprehensive understanding and practice for the compulsory subjects of engineering students, including; - Electric Circuits - Electronics - Engineering Mechanics - Dynamics - Engineering Economy - Linear Algebra - Numerical Analysis - Probability and Statistics - Control Systems - Signals and Systems - Matlab and Simulink - PSpice, Multisim, OrCAD, .. and other courses. This includes a detailed discussion of the material, extensive examples and practice problems, and solving past papers.

Explanation of civil engineering materials such as steel structure & concrete structure & structure analysis & Structural Design & mathematics for school students * Assistance in solving exercises and graduation projects * If you need any questions, do not hesitate to contact me (even if you do not want the lesson)

I am a professional civil engineer and I have been teaching various courses of civil eingineeirng which include design of concrete, foundation engineering, structural engineering, earthquake engineering, environmental engineering and construction management.

All the classes of mine include flexible hours depending on requests from tuition-takers. Every session takes one hour with interactive learning techniques. The primary aim of them is to ensure the tuition takers satisfy with the outcomes in the end.

I am a Full Professor of Mechanical Engineering with 30 years of experience in areas such as Strength of Materials, Stability, Physics (Kinematics and Dynamics), Statics, Elasticity, Solid Mechanics, Machine Elements, Stress Analysis, Structures and Advanced Materials Mechanics . I emphasize teaching through problem solving and practical applications. The Strength of Materials classes include topics such as: Stress analysis. Axial load, bending, Torsion, Transverse load, Combined stresses, Stress transformation, Energy methods, Calculation of deflections in beams, statically indeterminate problems, buckling, shear center, compound bending and asymmetric bending, Castigliano's theorem, Mohr's method , Virtual work, Creep and Fracture Criteria, etc.

the student will learn the theory of the topic before going into the application to pilot and master everything later. I have mastered the art of teaching for more than twenty years. I dealt with plenty of students from different continentss and cultures. Do not worry, whatever your help request was in any subject in the domain of structural engineering, we can manage and offer reliable and efficient guidance

My courses serve as an introduction to the field of engineering and engineering careers and introduce students to engineering issues. The goal of the courses is to prepare students for careers in engineering by exposing them to fundamental engineering design tasks and activities and dig deeply into design projects using the engineering design process. Topics covered include computer-aided design, structural analysis, RC design, steel design, project management, and modeling using SAP 2000, Etabs, Safe, Robot, RAM Concept, and ADAPt PT. Students will enjoy interactive sessions with examples from real life.

The course covers the principles of force and moment vectors, the distribution of loads, the use of free-body diagrams and the internal forces, with applications to shear and moment diagrams under different loading conditions. It also covers the mechanical behavior (stress-strain relationships) of different materials under tension, compression, torsion, bending, and shear stress. Mohr’s circle, transformation equations, and Hooke’s law are discussed.`

I offer private tuition and grinds in Third-Level Structural Engineering. My specialities include the following: structural analysis; design using the five main materials – RC, steel, masonry, timber & prestressed concrete; mechanics of materials / solid mechanics; bridge design; technical graphics; concrete technology; construction; scheme design; fire engineering; maths; physics. My tutoring philosophy involves patience, yet persistence. If it’s not working one way, let’s work at it together. If it’s still not working that way, let’s try another avenue. Words ex-colleagues have used to describe me in the past would include a good communicator, personable, organised, enthusiastic, positive and a good listener.

Hello ! This is a training pack concerning the analysis and calculation of structures, provided mainly within scientific and technical training of the engineering type, LMD and BTS relating to mechanical engineering and/or civil engineering. This is a set of training sessions which aim to provide all the knowledge and skills and know-how relating to the practical study of mechanical systems of the structural type, in particular hyperstatic structures and to provide a wealth of methods allowing to apprehend all types of structures. On the program (although not limited): 1 - Reminders of RDM on the calculation of displacements; 2 - Bresse method; 2 - Energetics, method of forces; 3 - Three-moment method (Clapeyron method); 4 - Hearth method; 5 - Displacement method 1; 6 - Displacement method 2; 7 - Hardy-Cross method; 8 - Calculation of lines of influence.