StaticsC02 24092013 [Uyumluluk Modu] -...
Transcript of StaticsC02 24092013 [Uyumluluk Modu] -...
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Force Vectors2
STATICSAssist. Prof. Dr. Cenk Üstündağ
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Chapter Objectives
• Parallelogram Law• Cartesian vector form• Dot product and angle between 2 vectors
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Chapter Outline
1. Scalars and Vectors2. Vector Operations3. Vector Addition of Forces4. Addition of a System of Coplanar Forces5. Cartesian Vectors6. Addition and Subtraction of Cartesian Vectors7. Position Vectors8. Force Vector Directed along a Line9. Dot Product
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2.1 Scalars and Vectors
• Scalar – A quantity characterized by a positive or negative number– Indicated by letters in italic such as Ae.g. Mass, volume and length
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2.1 Scalars and Vectors
• Vector– A quantity that has magnitude and direction
e.g. Position, force and moment– Represent by a letter with an arrow over it, – Magnitude is designated as– In this subject, vector is presented as A and its
magnitude (positive quantity) as A
A
A
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2.2 Vector Operations
• Multiplication and Division of a Vector by a Scalar- Product of vector A and scalar a = aA- Magnitude = - Law of multiplication applies e.g. A/a = ( 1/a ) A, a≠0
aA
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2.2 Vector Operations
• Vector Addition- Addition of two vectors A and B gives a resultant vector R by the parallelogram law
- Result R can be found by triangle construction- Communicative e.g. R = A + B = B + A- Special case: Vectors A and B are collinear (both have the same line of action)
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2.2 Vector Operations
• Vector Subtraction- Special case of additione.g. R’ = A – B = A + ( - B )- Rules of Vector Addition Applies
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2.3 Vector Addition of Forces
Finding a Resultant Force• Parallelogram law is carried out to find the resultant
force
• Resultant, FR = ( F1 + F2 )
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2.3 Vector Addition of Forces
Procedure for Analysis• Parallelogram Law
– Make a sketch using the parallelogram law– 2 components forces add to form the resultant force – Resultant force is shown by the diagonal of the
parallelogram – The components is shown by the sides of the
parallelogram
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2.3 Vector Addition of Forces
Procedure for Analysis• Trigonometry
– Redraw half portion of the parallelogram– Magnitude of the resultant force can be determined
by the law of cosines– Direction if the resultant force can be determined by
the law of sines– Magnitude of the two components can be determined by
the law of sines
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Example 2.1
The screw eye is subjected to two forces, F1 and F2. Determine the magnitude and direction of the resultant force.
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Solution
Parallelogram LawUnknown: magnitude of FR and angle θ
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Solution
TrigonometryLaw of Cosines
Law of Sines
NN
NNNNFR
2136.2124226.0300002250010000
115cos1501002150100 22
8.39
9063.06.212
150sin
115sin6.212
sin150
NN
NN
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Solution
TrigonometryDirection Φ of FR measured from the horizontal
8.54158.39
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2.4 Addition of a System of Coplanar Forces
• Scalar Notation– x and y axes are designated positive and negative– Components of forces expressed as algebraic
scalars
sin and cos FFFF
FFF
yx
yx
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2.4 Addition of a System of Coplanar Forces
• Cartesian Vector Notation– Cartesian unit vectors i and j are used to designate
the x and y directions– Unit vectors i and j have dimensionless magnitude
of unity ( = 1 ) – Magnitude is always a positive quantity,
represented by scalars Fx and Fy
jFiFF yx
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2.4 Addition of a System of Coplanar Forces
• Coplanar Force ResultantsTo determine resultant of several coplanar forces:– Resolve force into x and y components– Addition of the respective components using scalar
algebra – Resultant force is found using the parallelogram
law– Cartesian vector notation:
jFiFF
jFiFF
jFiFF
yx
yx
yx
333
222
111
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2.4 Addition of a System of Coplanar Forces
• Coplanar Force Resultants– Vector resultant is therefore
– If scalar notation are used
jFiFFFFF
RyRx
R
321
yyyRy
xxxRx
FFFFFFFF
321
321
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2.4 Addition of a System of Coplanar Forces
• Coplanar Force Resultants– In all cases we have
– Magnitude of FR can be found by Pythagorean Theorem
yRy
xRx
FF
FF
Rx
RyRyRxR F
FFFF 1-22 tan and
* Take note of sign conventions
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Example 2.5
Determine x and y components of F1 and F2 acting on the boom. Express each force as a Cartesian vector.
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Solution
Scalar Notation
Hence, from the slope triangle, we have
NNNF
NNNF
y
x
17317330cos200
10010030sin200
1
1
125tan 1
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Solution
By similar triangles we have
Scalar Notation:
Cartesian Vector Notation:
N100135260
N2401312260
2
2
y
x
F
F
NNF
NF
y
x
100100
240
2
2
NjiF
NjiF100240
173100
2
1
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Solution
Scalar Notation
Hence, from the slope triangle, we have:
Cartesian Vector Notation
NNNF
NNNF
y
x
17317330cos200
10010030sin200
1
1
125tan 1
NjiF
NjiF100240173100
2
1
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Example 2.6
The link is subjected to two forces F1 and F2. Determine the magnitude and orientation of the resultant force.
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Solution I
Scalar Notation:
N
NNF
FFN
NNF
FF
Ry
yRy
Rx
xRx
8.582
45cos40030sin600
:8.236
45sin40030cos600
:
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Solution I
Resultant Force
From vector addition, direction angle θ is
N
NNFR
6298.5828.236 22
9.678.2368.582tan 1
NN
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Solution II
Cartesian Vector NotationF1 = { 600cos30°i + 600sin30°j } NF2 = { -400sin45°i + 400cos45°j } N
Thus, FR = F1 + F2
= (600cos30ºN - 400sin45ºN)i+ (600sin30ºN + 400cos45ºN)j
= {236.8i + 582.8j}NThe magnitude and direction of FR are determined in the same manner as before.