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| Post date: 2020/02/12 |
(Department) Biomedical Engineering (Division) -
(Level and Major) bachelor
Course Title Statics in Biomedical Engineering
Number of Credits 3 Prerequisite calculus 1 , Physics 1
Lecturer -
Course Description -
Course Goals and Objectives
1-Acquaintance with equilibrium in 2D & 3D
2- Acquaintance with Loads
3- Acquaintance with Mechanical behavior of materials
Course Topics
1- Introduction :
Overview of Quantities, Vector Algebra, Newton's Laws and Systems, Internal and External Multiplication of vectors
2- Power and torque :
Determination of the resultant of the forces of orientation, lengrish of the force around a line and about a point,, force pair, of the coupling system of force, the result of a general force system, determine the equivalent force of the plate force system
3- Free Chart :
Understand the types of supports, how to draw a rigid body diagram
4- Balance :
Equilibrium laws, rigid equilibrium equations and determinants of anchor forces, static equilibrium conditions, static indefinite
5- Structures :
Trusses ( dual-force members, knot method and cross section method ) , frames and machine components .
6- Distributed forces : The center of mass and the geometric center of a compound, compound shapes and lines .
7- Beams :
Shear forces, determination of internal forces, diagrams of shear forces and bending moment, the governing relationships between shear forces and bending moment and extensive load .
8- Human balance :
Equilibrium Equations in the Musculoskeletal System, Calculation of Muscle Strengths and Joint Response
9- Friction :
Laws of the dry friction, angle of the friction wedge, (c) of China and the rooms are of the Sikhs , the rolling friction of the belt of .
10- Job :
The Virtual Method in Estimating Reaction and Displacement Forces
11- Loaded cables
12- Anchors the area and multiplication of the of the nurse to :
Integral Method G of the of , cases of the transmission axes of parallel to the surface of the compound, under Axes
13- Concepts of the public of stress :
Stress, defined by physical stress, all kinds of stress .
14- 14. Stress analysis in axial load bars :
Loading the axis of the center, allowable stress, the coefficient of the reliability of bread, shear stress of the riveted joints, c a g Bolts
15. Strain and deformation in organs under axial load :
Definition of F strain, relationships, stress-strain, the single axis of the hook, check the curve of stress - strain, the coefficient of the Poisson, Hooke's Law all the to the material of the homogeneous isotope , change Y of the problem in loading the shaft to solve problems of L Invalid of the acetate of one of .
Reading Resources
1- Meriam, JL, "Engineering Mechanics-STATICS", JOHN WILEY. 2012
2- N. Ozkaya, M. Nordin, "Fundamentals of Biomechanics: Equilibrium, Motion, and Deformation", Springer, Chapters 3-5. 2012
3- alnal, Mustafa, Ozan Akkuş, and Randall E. Marcus. "Fundamentals of MusculoskeletalBiomechanics." In Musculoskeletal Research and Basic Science, pp. 15-36. Springer, Cham, 2016 .
(Level and Major) bachelor
Course Title Statics in Biomedical Engineering
Number of Credits 3 Prerequisite calculus 1 , Physics 1
Lecturer -
Course Description -
Course Goals and Objectives
1-Acquaintance with equilibrium in 2D & 3D
2- Acquaintance with Loads
3- Acquaintance with Mechanical behavior of materials
Course Topics
1- Introduction :
Overview of Quantities, Vector Algebra, Newton's Laws and Systems, Internal and External Multiplication of vectors
2- Power and torque :
Determination of the resultant of the forces of orientation, lengrish of the force around a line and about a point,, force pair, of the coupling system of force, the result of a general force system, determine the equivalent force of the plate force system
3- Free Chart :
Understand the types of supports, how to draw a rigid body diagram
4- Balance :
Equilibrium laws, rigid equilibrium equations and determinants of anchor forces, static equilibrium conditions, static indefinite
5- Structures :
Trusses ( dual-force members, knot method and cross section method ) , frames and machine components .
6- Distributed forces : The center of mass and the geometric center of a compound, compound shapes and lines .
7- Beams :
Shear forces, determination of internal forces, diagrams of shear forces and bending moment, the governing relationships between shear forces and bending moment and extensive load .
8- Human balance :
Equilibrium Equations in the Musculoskeletal System, Calculation of Muscle Strengths and Joint Response
9- Friction :
Laws of the dry friction, angle of the friction wedge, (c) of China and the rooms are of the Sikhs , the rolling friction of the belt of .
10- Job :
The Virtual Method in Estimating Reaction and Displacement Forces
11- Loaded cables
12- Anchors the area and multiplication of the of the nurse to :
Integral Method G of the of , cases of the transmission axes of parallel to the surface of the compound, under Axes
13- Concepts of the public of stress :
Stress, defined by physical stress, all kinds of stress .
14- 14. Stress analysis in axial load bars :
Loading the axis of the center, allowable stress, the coefficient of the reliability of bread, shear stress of the riveted joints, c a g Bolts
15. Strain and deformation in organs under axial load :
Definition of F strain, relationships, stress-strain, the single axis of the hook, check the curve of stress - strain, the coefficient of the Poisson, Hooke's Law all the to the material of the homogeneous isotope , change Y of the problem in loading the shaft to solve problems of L Invalid of the acetate of one of .
Reading Resources
1- Meriam, JL, "Engineering Mechanics-STATICS", JOHN WILEY. 2012
2- N. Ozkaya, M. Nordin, "Fundamentals of Biomechanics: Equilibrium, Motion, and Deformation", Springer, Chapters 3-5. 2012
3- alnal, Mustafa, Ozan Akkuş, and Randall E. Marcus. "Fundamentals of MusculoskeletalBiomechanics." In Musculoskeletal Research and Basic Science, pp. 15-36. Springer, Cham, 2016 .
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