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Chapter I Vectors and Scalars AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering.

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Presentation on theme: "Chapter I Vectors and Scalars AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering."— Presentation transcript:

1 Chapter I Vectors and Scalars AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

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3 Fundamental Principles Preconditions to deal with problems in mechanics. Basic concepts used in mechanics: space, time, mass, force, particle, rigid body AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

4 Fundamental Principles Cont… Basic concepts used in mechanics: space, time, mass, force, particle, rigid body coordinates - position of a point P (x, y, z) measured from a certain point of reference AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

5 Basic concepts used in mechanics: space, time, mass, force, particle, rigid body time of an event taking place, determination of velocity and acceleration AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

6 Basic concepts used in mechanics: space, time, mass, force, particle, rigid body mass of a body [kg, to] action of weight, behavior under the action of an external force AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

7 Basic concepts used in mechanics: space, time, mass, force, particle, rigid body magnitude, direction, point of application e.g. action on a rigid body, action of one body onto another AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

8 Basic concepts used in mechanics: space, time, mass, force, particle, rigid body infinitesimal small piece of a body, single point in space AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

9 Basic concepts used in mechanics: space, time, mass, force, particle, rigid body body consisting of a non-deformable material (no displacement under the action of forces) AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

10 Newton’s Laws Sir Isaac Newton (1642-1727) 1st Law: A particle remains at rest or continues to move with constant velocity if the resultant force acting on it is zero. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

11 Newton’s Laws Sir Isaac Newton (1642-1727) 2nd Law: The acceleration of a particle proportional to the resultant force acting on it (magnitude and direction). F = ma m = mass of particle a = acceleration AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

12 Newton’s Laws Sir Isaac Newton (1642-1727) 3rd Law: The forces of action and reaction between bodies in contact are equal in magnitude, opposite in direction and collinear (same line of action). AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

13 Newton’s Laws Law of Gravitation Two particles of mass m1 and m2 are mutually attracted with equal and opposite forces F and F’ of magnitude F. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering G = constant of gravitation Fundamental Principles Cont…

14 Newton’s Laws Law of Gravitation Weight = Gravitational Force acting on a body (attraction between earth and body) W = m ⋅ g g = acceleration of gravity = 9.81 m/s 2 AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

15 Newton’s Laws Law of Gravitation Weight = Gravitational Force acting on a body (attraction between earth and body) W[N] = m[Kg] ⋅ g[m/s 2 ] g = 9.81 m/s 2 AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Fundamental Principles Cont…

16 Units International System of Units (SI units) Mass m [to, kg] Force F[kN, N] Time t [s] Length L [m, cm, mm] AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

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18 Scalars and Vectors Definition and properties Scalars: quantities described by their magnitude alone e.g. time, volume, area, density, distance, energy mass AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

19 Vectors: quantities described by their magnitude and direction e.g. displacement, velocity, force, acceleration, momentum AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Scalars and Vectors Definition and properties

20 Graphical representation of a Vector line segment of certain length (magnitude) and orientation (θ) arrowhead indicating direction AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

21 Symbolic representation of a Vector magnitude, length of vector: ║ V ║, |V| or V e.g. in scalar equations vector quantities respecting the orientation: V, V e.g. mathematical vector operations AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

22 Symbolic representation of a Vector magnitude, length of vector: ║ V ║, |V| or V e.g. in scalar equations vector quantities respecting the orientation: V, V e.g. mathematical vector operations AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

23 Representation of Vectors Algebraically a vector is represented by its components along the three dimensions. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

24 Representation of Vectors Cont…

25 AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Representation of Vectors Cont…

26 AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Representation of Vectors Cont…

27 AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Representation of Vectors Cont…

28 AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Representation of Vectors Cont…

29 Orientation of Vectors collinear - same line of action coplanar - located in the same plane concurrent - passing through a common point AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

30 Classification of Vectors Free Vector Sliding Vector Fixed Vector AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

31 1. Free Vector: action in space not associated with a unique line e.g. uniform displacement of a body AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Classification of Vectors Cont…

32 1. Free Vector: action in space not associated with a unique line e.g. uniform displacement of a body AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Classification of Vectors Cont…

33 1. Free Vector: action in space not associated with a unique line e.g. uniform displacement of a body AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Classification of Vectors Cont…

34 2. Sliding Vector: action in space described by a unique line e.g. action of force on rigid body AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Classification of Vectors Cont…

35 2. Sliding Vector: action in space described by a unique line e.g. action of force on rigid body AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Classification of Vectors Cont…

36 2. Sliding Vector: action in space described by a unique line e.g. action of force on rigid body AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Classification of Vectors Cont…

37 3. Fixed Vector: action in space described by a unique point e.g. action of force on non rigid body AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Classification of Vectors Cont…

38 3. Fixed Vector: action in space described by a unique point e.g. action of force on non rigid body AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Classification of Vectors Cont…

39 AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

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41 Vector Addition – graphical method The parallelogram law – resultant force Two forces maybe replaced by a single force (resultant) obtained by drawing the diagonal of the parallelogram having sides equal to the given forces. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

42 Vector Addition – graphical method Cont… The parallelogram law – resultant force Two forces maybe replaced by a single force (resultant) obtained by drawing the diagonal of the parallelogram having sides equal to the given forces. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

43 Vector Addition – graphical method Cont… The parallelogram law – resultant force Two forces maybe replaced by a single force (resultant) obtained by drawing the diagonal of the parallelogram having sides equal to the given forces. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

44 Vector Addition – graphical method Cont… The parallelogram law – resultant force Two forces maybe replaced by a single force (resultant) obtained by drawing the diagonal of the parallelogram having sides equal to the given forces. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

45 Vector Addition – graphical method Cont… The parallelogram law – resultant force Two forces maybe replaced by a single force (resultant) obtained by drawing the diagonal of the parallelogram having sides equal to the given forces. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

46 Vector Addition – graphical method Cont… The parallelogram law – resultant force Two forces maybe replaced by a single force (resultant) obtained by drawing the diagonal of the parallelogram having sides equal to the given forces. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

47 Vector Addition – graphical method Cont… The parallelogram law – resultant force Two forces maybe replaced by a single force (resultant) obtained by drawing the diagonal of the parallelogram having sides equal to the given forces. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

48 Vector Addition – graphical method Cont… The parallelogram law – resultant force Two forces maybe replaced by a single force (resultant) obtained by drawing the diagonal of the parallelogram having sides equal to the given forces. AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

49 Vector Addition – graphical method Cont… The triangle rule (from parallelogram law) AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

50 Vector Addition – Analytic Method Trigonometric rules applying sine and cosine rules AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

51 Vector Addition – Analytic Method Cont… Trigonometric rules applying sine and cosine rules AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

52 Vector Addition – Analytic Method Cont… Trigonometric rules applying sine and cosine rules AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

53 Decomposition of Vectors Components, perpendicular AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering horizontal component of V

54 Decomposition of Vectors Cont… Components, AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering horizontal component of V

55 Decomposition of Vectors Cont… Components, AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering horizontal component of V vertical component of V

56 Decomposition of Vectors Cont… Components, AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering horizontal component of V vertical component of V

57 Decomposition of Vectors Cont… Components, AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering horizontal component of V vertical component of V

58 Multiplication Multiplication of vectors by scalars AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

59 Multiplication Cont… Multiplication of vectors by vectors - dot product (scalar product) - cross product (vector product) AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

60 Dot Product (scalar product) Vectors A and B are θ inclined from each other AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

61 Dot Product (scalar product) Cont… Vectors A and B are θ inclined from each other Result : Vector of determined magnitude and direction perpendicular to the plane formed by A and B AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

62 Dot Product (scalar product) Cont… Vectors A and B are θ inclined from each other Result : Vector of determined magnitude and direction perpendicular to the plane formed by A and B AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

63 Dot Product (scalar product) Cont… Vectors A and B are θ inclined from each other Result : Vector of determined magnitude and direction perpendicular to the plane formed by A and B AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

64 Cross Product (vector product) Determination of resulting vector by three by three matrix AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

65 Cross Product (vector product) Cont… Determination of resulting vector by three by three matrix AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

66 Cross Product (vector product) Cont… Determination of resulting vector by three by three matrix AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

67 Cross Product (vector product) Cont… Determination of resulting vector by three by three matrix AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering

68 Moment of a vector V about any point 0 AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering Cross Product (vector product) Cont…

69 Thank You! AAIT Engineering Mechanics Statics Department of Tewodros N. Civil Engineering


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