finite element method محاضرات و شرح بطريقة روعة للدكتور محمد الزغيبى

finite element method محاضرات و شرح بطريقة روعة للدكتور محمد الزغيبى
    شرح الـ finite element method بطريقة روعة 
    طريقة العناصر المنتهية
    لـ
    الدكتور/ محمد الزغيبى 
    أستاذ المنشأت الخرسانية - جامعة المنصورة 
    ورئيس مركز الاستشارات الهندسية بالجامعة

    Finite Element Analysis - العناصر المحددة د. محمد الزغيبى - Dr. Mohamed El-Zoughiby
    محاضرات في ال finite element بالعربي
    finite element method شرح طريقة العناصر المحددة

    لمشاهدة جميع المحاضرات كاملة علي اليوتيوب شرح الـ finite element method باللغة العربية

    للتحميل المباشر للمحاضرات
     Finite Element Method Introduction Lecture 01 17-01


    Finite Element Method Introduction Lecture 02 17-01


    Finite Element Method Introduction Lecture 03 24-01


    Finite Element Method Introduction Lecture 04 24-01


    Finite Element Method Introduction Lecture 05 30-01


    Finite Element Method Chapter 2 Lecture 06 07-02


    Finite Element Method Chapter 2 Lecture 07 07-02


    Finite Element Method Chapter 3 Beams Lecture 08 14-02


    Finite Element Method Chapter 3 Beams Lecture 09 14-02


    Finite Element Method Review1 Lecture 10 21-02


    Finite Element Method Review1 Lecture 11 21-02


    Finite Element Method Chapter 4 Truss Lecture 12 28-02


    Finite Element Method Chapter 4 Truss Lecture 13 07-03


    Finite Element Method Chapter 5 FRAME - GRID Lecture 14 14-03 NEW


    Finite Element Method Chapter 6 Plane Stress and Plane Strain Lecture 15 21-03


    Finite Element Method Chapter 6 Plane Stress and Plane Strain Lecture 16 28-03


    Finite Element Method Chapter 6 Plane Stress and Plane Strain Lecture 17 04-04


    Finite Element Method Chapter 6 Plane Stress and Plane Strain Lecture 18 11-04


    Finite Element Method Review 2A Lecture 19 19-04


    Finite Element Method Review 2B Lecture 20 25-04


    Finite Element Method Chapter 7 Lecture 21 08-05


    Finite Element Method Chapter 7 Lecture 22 10-05


    Finite Element Method Chapter 7 Lecture 23 10-05


    Finite Element Method Chapter 8 Lecture 24 17-05


    25 Finite Element Method Chapter 9 Lecture 25 24-05


    26 Finite Element Method Chapter 10 Lecture 26 28-05


    27 Finite Element Method Chapter 11 Lecture 27 06-06


    28 Finite Element Method Chapter 11 Lecture 28 06-06


    29 Finite Element Method Chapter 12 Lecture 29 14-06


    30 Finite Element Method Chapter 13 Lecture 30 02-07


    31 Finite Element Method Chapter 14 Lecture 31 25-07


    32 Finite Element Method Chapter 14 Lecture 32 25-07


    33 Finite Element Method Chapter 14 Lecture 33 09-08


    34 Finite Element Method Chapter 14 Lecture 34 09-08


    35 Finite Element Method Chapter 14 Lecture 35 15-08


    لتحميل المرجع


    موقع الباشمهندس يسعي لتقديم محتوي علمي هادف لكل مهندس و توفير فرص عمل لائقة للمهندسين وان شاء الله هذه مجرد البداية لبذرة الباشمهندس لتكوين مؤسسة متكاملة لخدمة المهندسين علميا و عمليا وتوفير علي المهندسين المحتوي العلمي القيم و المفيد وتوفير الفرص الوظيفية بشكل كبير ومختلف لتكوين سوق عمل قوي لكل المهندسين في عالم الاعمال الحرة و عدم الاعتماد علي العمل لدي بعض المؤسسات الخاصة فقط ان شاء الله سيتم في القريب العاجل توفير منصة عمل حر للمهندسين للمنافسة في الأعمال الحرة و التعامل المباشر مع صاحب العمل
    Civil engineering is the design and construction of public and private works, such as infrastructure (airports, roads, railways, water supply, and treatment etc.), bridges, tunnels, dams, and buildings.
    Civil engineering is traditionally broken into a number of sub-disciplines, including structural engineering, environmental engineering, and surveying. It is traditionally considered to be separate from military engineering.
    Geotechnical engineering is the branch of civil engineering concerned with the engineering behavior of earth materials. Geotechnical engineering is important in civil engineering, but also has applications in military, mining, petroleum and other engineering disciplines that are concerned with construction occurring on the surface or within the ground.
    Chemical engineering is a branch of engineering that uses principles of chemistry, physics, mathematics, biology, and economics to efficiently use, produce, design, transport and transform energy and materials. The work of chemical engineers can range from the utilisation of nano-technology and nano-materials in the laboratory to large-scale industrial processes that convert chemicals, raw materials, living cells, microorganisms, and energy into useful forms and products.
    Mechanical engineering is the discipline that applies engineering physics, engineering mathematics, and materials science principles to design, analyze, manufacture, and maintain mechanical systems. It is one of the oldest and broadest of the engineering disciplines.