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picture1_Dynamics Of Rigid Bodies Pdf 158255 | Mec 221 481650


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File: Dynamics Of Rigid Bodies Pdf 158255 | Mec 221 481650
1 page 1 faculty of engineering technology dynamics of rigid bodies mechanics3 information course code mec 221 level undergraduate course hours 3 00 hours department department of mechanical engineering instructor ...

icon picture PDF Filetype PDF | Posted on 19 Jan 2023 | 2 years ago
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                1. Page 1
                                                               Faculty of Engineering & Technology
                                                             Dynamics of Rigid Bodies (Mechanics3)
              Information : 
              Course Code : MEC 221                             Level          :    Undergraduate               Course Hours :            3.00- Hours
              Department :         Department of Mechanical Engineering
              Instructor Information : 
              Title                                              Name                                                                     Office hours 
              Lecturer                                           Amr Mohamed Metwally Ismaiel                                             13
              Lecturer                                           Amr Mohamed Metwally Ismaiel                                             13
              Teaching Assistant                                 Amira Khaled Hasan Mohamed Elkodama                                      4
              Teaching Assistant                                 Amira Khaled Hasan Mohamed Elkodama                                      4
              Area Of Study :
               This course aims to:
               ‡Enrich the student's knowledge about the fundamental principles of kinematics of a rigid body.
               ‡Prepare the student to analyze the concepts of planar motion and its types (translation, rotation and general plane 
               motion) of a rigid body or systems of connected bodies using vector and scalar methods.
               ‡Train the student to represent and apply relations of position, velocity and ac-celeration for rolling motion problems.
               ‡Prepare the student to analyze the various principles of Kinetics such as force-acceleration, work-energy and the 
               impulse-momentum principles for various types of problems that containing the motion of a rigid body. 
              Course outcomes :
              a.Knowledge and Understanding: :
                     1 -      Describe position, velocity and acceleration for a moving rigid body.
                     2 -      Define the equations of motion of a rigid body.
                     3 -      Explain the analysis of work and energy, impulse and momentum methods.
              b.Intellectual Skills: :
                     1 -      Discriminate between different types of motion.
                     2 -      Formulate the kinematic and kinetic equations in order to describe the motion of the rigid body.
              c.Professional and Practical Skills: :
                     1 -      Design experiments for motion studies. 
              d.General and Transferable Skills: :
                     1 -      Work effectively in a team and develop the skills which are related to creative thinking, problem solver, 
                              and teamwork in different fields of the motion of rigid bodies.
          Page 1  Of 2                                                    http://www.fue.edu.eg
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        2. Page 2
          Course Topic And Contents :
          Topic                                                       No. of hours Lecture    Tutorial / Practical
          Planar kinematics of a rigid body, Translation,             4            2          2
          rotation and general motion
          Vector and scalar methods for analysis                      8            4          4
          Analysis of connected rigid bodies                          4            2          2
          Rolling motion and applications.                            4            2          2
          Kinetics of a rigid body                                    4            2          2
          Force-acceleration method of a rigid body                   12           6          6
          Work and energy of a rigid body                             12           6          6
          Impulse and momentum method of a rigid                      8            4          4
          body and impact problems
          Impact problems                                             4            2          2
          Teaching And Learning Methodologies :
          Interactive Lecturing
          Problem Based Learning 
          Discussion
          Course Assessment :
          Methods of assessment          Relative weight % Week No       Assess What
          Assignment                     10.00              14
          Final Exam                     40.00              16           Written exam.
          Mid- Exam I                    15.00              6            Written exam.
          Mid- Exam II                   15.00              11           Written exam.
          Participation                  10.00              15
          Quizzes                        10.00              12
          Course Notes :
          Lecture notes on the course moodle page, FUE website.
          Recommended books :
          Hibbeler R.C., "Engineering Mechanics:  Dynamics", 13th Edition. 
          Riley W. and Sturges L, "Engineering Mechanics:  Dynamics". 6th Edition 
       Page 2  Of 2                                http://www.fue.edu.eg
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...Page faculty of engineering technology dynamics rigid bodies mechanics information course code mec level undergraduate hours department mechanical instructor title name office lecturer amr mohamed metwally ismaiel teaching assistant amira khaled hasan elkodama area study this aims to enrich the student s knowledge about fundamental principles kinematics a body prepare analyze concepts planar motion and its types translation rotation general plane or systems connected using vector scalar methods train represent apply relations position velocity ac celeration for rolling problems various kinetics such as force acceleration work energy impulse momentum that containing outcomes understanding describe moving define equations explain analysis b intellectual skills discriminate between different formulate kinematic kinetic in order c professional practical design experiments studies d transferable effectively team develop which are related creative thinking problem solver teamwork fields http...

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