У нас вы можете посмотреть бесплатно How to draw deflected shape of beam and frame! или скачать в максимальном доступном качестве, видео которое было загружено на ютуб. Для загрузки выберите вариант из формы ниже:
Если кнопки скачивания не
загрузились
НАЖМИТЕ ЗДЕСЬ или обновите страницу
Если возникают проблемы со скачиванием видео, пожалуйста напишите в поддержку по адресу внизу
страницы.
Спасибо за использование сервиса ClipSaver.ru
Dr Jawed Qureshi presents elastic curve, deflected shape or form of beams and frames. • structural mechanics Deflected shapes in beams and frames describe how these structures bend or deform when subjected to loads. Think of a beam as a long, horizontal plank or a frame as a connected network of beams. When you put weight or force on them (like a person walking on a bridge), they flex or curve. This bending is the deflected shape. Imagine a diving board when someone jumps on it; it sags downward. That's the deflected shape. It's important because it helps engineers ensure structures don't bend too much, causing safety issues. Beams typically deflect in a gentle curve. If you add more weight, the curve becomes more pronounced. Frames, being interconnected, have more complex deflected shapes. Engineers use math and physics to predict and control these deflections, ensuring structures stay within safe limits. So, deflected shapes are like the way a diving board bends when you jump on it, and engineers use calculations to make sure buildings and bridges bend just the right amount to keep us safe. Link to lecture slides: https://tinyurl.com/JQureshiMechanics 00:00 – Introduction 00:59 – What is deflected shape? 02:34 – Deflection Basics 05:01 – Effect of supports 07:03 – Effect of load pattern 10:07 – Examples Watch structural mechanics Lecture series at https://tinyurl.com/JQmechanics 01 Understanding Structural Mechanics • 01 Load Distribution – Lecture | Eurocode ... 02 Understanding Loads and Load Paths • Understanding Loads and Load Paths 03 Understanding Internal forces in Structural Members • Mastering INTERNAL FORCES: A Step-by-Step ... 04 Understanding Floor Loading in Buildings • Floor Loading Simplified - Essential Knowl... 05 Understanding SECTION PROPERTIES • Understanding SECTION PROPERTIES – Area, c... 06 Understanding the Area Moment of Inertia - Examples • Understanding the Area Moment of Inertia -... 07 Understanding Moment of Resistance and Stress Distribution in Beams • Understanding Moment of Resistance and Str... 08 Understanding Analysis of Beams • Understanding Analysis of Beams 09 Understanding Beam Reactions • Understanding Beam Reactions 10 Understanding SHEAR FORCE and BENDING MOMENT Diagrams • Видео 11 How TRUSSES work! • How TRUSSES work! 12 How to draw deflected shape of beam! • How to draw deflected shape of beam and fr... Subscribe to my YouTube structural engineering channel / @drjqureshi Follow Me on Twitter / drjqureshi Follow Me on Instagram / drjqureshi Follow me on LinkedIn https://bit.ly/Linkedin-JQ Your queries How to draw deflected shape How to draw deflected shape of a beam Beam, Frame, structural analysis, structural mechanics, engineering mechanics, Engineering, Civil Engineering, Structural Engineering, Mechanical Engineering, structural analysis civil engineering, structural mechanics civil engineering, structural engineering basics, mechanics of materials lecture advanced structural mechanics structural engineering channel YouTube video series on Engineering Mechanics • structural mechanics Unlock the power of Structural Mechanics in my comprehensive YouTube series tailored for both Civil and Mechanical Engineers. Covering topics from Statics and Structural Analysis to FEA and real-world case studies, this series equips you for success. Explore #StructuralMechanics, #EngineeringDesign, #engineeringmechanics, and more. Join me on this educational journey – like, subscribe, and master Structural Mechanics today! Disclaimer: This material is provided on an 'as is' basis with no warranty. There is no guarantee that the material will meet your requirements, that the material is error-free, that results obtained from the use of the material will be reliable, nor that any errors in the material will be corrected. Copyright: Dr Jawed Qureshi holds the copyright to this lecture series. He is a senior academic in London, UK with international experience of over 20 years. Dr Qureshi holds a PhD in steel -concrete composite structures from The University of Leeds and has a prior teaching experience at The University of Warwick. He is currently working at a London University as a Senior Lecturer in Structural Engineering and Design.