What is Engineering Mechanics?

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Transcription:

What is Engineering? Study of the relations between the forces that act on bodies or fluids and the resultant motion that those bodies or fluids experience. Engineering of rigid bodies of deformable bodies of fluids Statics Dynamics Kinetics Kinematics 1

Rigid Body Statics Equilibrium of rigid bodies, Engineering at rest, or move with constant velocity of rigid bodies of deformable bodies of fluids Relationship between internal and external forces Statics Kinetics Dynamics Kinematics 2

Rigid Body Dynamics Analysis of rigid bodies in motion Engineering of rigid bodies of deformable bodies of fluids Statics Dynamics Kinetics Kinematics 3

Rigid Body Kinematics Study of the motion without reference to the forces that cause the motion. of rigid bodies Engineering of deformable bodies of fluids Motion: - Displacement - Velocity - Acceleration Statics Dynamics Kinetics Kinematics 4

Rigid Body Kinetics Engineering Relates the forces acting on the body to its motion. of rigid bodies of deformable bodies of fluids Used To find the motion caused by the applied forces. To determine the forces which are required to produce a desired motion. Statics Kinetics Dynamics Kinematics 5

of deformable bodies Known as of materials Strength of materials Advanced studies Theory of elasticity Theory of plasticity Flexible multibody dynamics 6

Fluid mechanics Compressible Ideal fluid Viscous fluid Incompressible Hydraulics 7

Historical Development Galileo(1564-1642) Newton(1642-1727) Euler, D Alembert, Lagrange, Laplace, Coriolis, Einstein(1879-1955) 8

Basic Quantities of Space: The geometric region where an event occurs. Time : The interval between successive events. Mass : A quantitative measure of inertia. Inertia is the resistance of a body to a change in velocity. 9

Idealizations of Particle: a body that has mass but negligible dimensions. Also, when the dimensions are irrelevant to its motion it can be treated as a particle, e.g. aeroplane, planet Rigid body: body whose change in shape is negligible compared to overall dimensons. (So particles remain at fixed distance from each other before & after applying a load.) Force: Action of one body on another. Vector quantity (magnitude and direction) - Direct contact - Remote action (gravitation, magnetic force) 10

Newton s Three Laws of Motion Newton s First Law A particle originally at rest, or moving in a straight line with constant velocity, tends to remain in this state if the resultant force acting on the particle is zero. F = 0 11

Newton s Three Laws of Motion Newton s Second Law If the resultant force acting on a particle is not zero, then the particle experiences an acceleration a that has the same direction as the force and a magnitude that is directly proportional to the force. F = ma 12

Newton s Three Laws of Motion Newton s Third Law For every action there is an equal and opposite reaction. The force of action and reaction between bodies are equal in magnitude, opposite in direction, and collinear. 13

Newton s Laws of Motion 1 st law 3 rd law 2 nd law }Statics }Dynamics 14

Newton s Law of Gravitational Attraction G=66.73x10-12 m 3 /(kg.s 2 ) 15

Newton s Law of Gravitational Attraction 16

Acceleration of Gravity 17

Units 18

Calculations Prefixes Dimensional Homogenity s = vt 1 2 at2 m m s s m s 2 s2 19

English Turkish Dictionary Statics Statik deformable Şekil değiştirebilen equilibrium denge internal iç external dış rigid Şekil değiştirmeyen, katı fluid displacement Yer değiştirme velocity hız akışkan acceleration ivme strength mukavemet compressible sıkıştırılabilir viscous İç sürtünmeli hydraulics Sıvı bilimi elasticity Elastik şekil değişimi inertia eylemsizlik particle parçacık rest hareketsiz thrust itki projection izdüşüm cannon top orbit yörünge gravitation yerçekimi attraction çekme constant sabit Rounding off yuvarlama Dimensional homogenity Boyutsal uyumluluk magnitude büyüklük Distributed load Yayılı yük resultant bileşke component bileşen parallelogram paralelkenar resolution ayırma horizontal yatay vertical düşey coplanar Eşdüzlemsel Dynamics dinamik position konum intersecting kesişen T.Akyürek ME 204 Engineering : Dynamics Introduction to Dynamics 20

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