statics - İtÜweb.itu.edu.tr/~ustunda1/course/restlectures.pdf · statics assist. prof. dr. ......
TRANSCRIPT
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Center of Gravity and Centroid7
STATICSAssist. Prof. Dr. Cenk Üstündağ
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Chapter Objectives
• Concept of the center of gravity, center of mass, and the centroid
• Determine the location of the center of gravity and centroid for a system of discrete particles and a body of arbitrary shape
• Theorems of Pappus and Guldinus• Method for finding the resultant of a general distributed
loading
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Chapter Outline
1. Center of Gravity and Center of Mass for a System of Particles
2. Composite Bodies3. Theorems of Pappus and Guldinus
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Center of Gravity and Center of Mass for a System of Particles
Center of Gravity • Locates the resultant weight of a system of particles• Consider system of n particles fixed within a region of
space• The weights of the particles can be replaced by a
single (equivalent) resultant weight having defined point G of application
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Center of Gravity and Center of Mass for a System of Particles
Center of Gravity • Resultant weight = total weight of n particles
• Sum of moments of weights of all the particles about x, y, z axes = moment of resultant weight about these axes
• Summing moments about the x axis,
• Summing moments about y axis,
nnR
nnR
R
WyWyWyWy
WxWxWxWx
WW
~...~~
~...~~
2211
2211
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Center of Gravity and Center of Mass for a System of Particles
Center of Gravity • Although the weights do not produce a moment about
z axis, by rotating the coordinate system 90° about x or y axis with the particles fixed in it and summing moments about the x axis,
• Generally,
mmzz
mmyy
mmxx
WzWzWzWz nnR
~,
~;
~
~...~~2211
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Center of Gravity and Center of Mass for a System of Particles
Center Mass• Provided acceleration due to gravity g for every
particle is constant, then W = mg
• By comparison, the location of the center of gravity coincides with that of center of mass
• Particles have weight only when under the influence of gravitational attraction, whereas center of mass is independent of gravity
mmzz
mmyy
mmxx
~
,~
;~
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Center of Gravity and Center of Mass for a System of Particles
Center Mass• A rigid body is composed of an infinite number of
particles • Consider arbitrary particle having a weight of dW
dW
dWzz
dW
dWyy
dW
dWxx
~;
~;
~
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Center of Gravity and Center of Mass for a System of Particles
Centroid of a Volume• Consider an object subdivided into volume elements
dV, for location of the centroid,
V
V
V
V
V
VdV
dVz
zdV
dVy
ydV
dVx
x
~
;
~
;
~
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Center of Gravity and Center of Mass for a System of Particles
Centroid of an Area• For centroid for surface area of an object, such as
plate and shell, subdivide the area into differential elements dA
A
A
A
A
A
AdA
dAz
zdA
dAy
ydA
dAx
x
~
;
~
;
~
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Center of Gravity and Center of Mass for a System of Particles
Centroid of a Line• If the geometry of the object takes the form of a line,
the balance of moments of differential elements dL about each of the coordinate system yields
L
L
L
L
L
LdL
dLz
zdL
dLy
ydL
dLx
x
~
;
~
;
~
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Example
Locate the centroid of the rod bent into the shape of a parabolic arc.
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Example
Differential elementLocated on the curve at the arbitrary point (x, y)Area and Moment ArmsFor differential length of the element dL
Since x = y2 and then dx/dy = 2y
The centroid is located at
yyxx
dyydL
dydydxdydxdL
~,~
12
1
2
222
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Example
Integrations
m
dyy
dyyy
dL
dLy
y
m
dyy
dyyy
dyy
dyyx
dL
dLx
x
L
L
L
L
574.0479.18484.0
14
14~
410.0479.16063.0
14
14
14
14~
1
02
1
02
1
02
1
022
1
02
1
02
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Composite Bodies
• Consists of a series of connected “simpler” shaped bodies, which may be rectangular, triangular or semicircular
• A body can be sectioned or divided into its composite parts
• Accounting for finite number of weights
WWzz
WWyy
WWxx
~~~
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Composite Bodies
Procedure for AnalysisComposite Parts• Divide the body or object into a finite number of
composite parts that have simpler shapes• Treat the hole in composite as an additional
composite part having negative weight or size
Moment Arms• Establish the coordinate axes and determine the
coordinates of the center of gravity or centroid of each part
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Composite Bodies
Procedure for AnalysisSummations• Determine the coordinates of the center of gravity by
applying the center of gravity equations• If an object is symmetrical about an axis, the centroid
of the objects lies on the axis
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Example
Locate the centroid of the plate area.
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Solution
Composite PartsPlate divided into 3 segments.Area of small rectangle considered “negative”.
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Solution
Moment ArmLocation of the centroid for each piece is determined and indicated in the diagram.
Summations
mmAAyy
mmAAxx
22.15.11
14~
348.05.114~
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Theorems of Pappus and Guldinus
• A surface area of revolution is generated by revolving a plane curve about a non-intersecting fixed axis in the plane of the curve
• A volume of revolution is generated by revolving a plane area about a nonintersecting fixed axis in the plane of area
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Theorems of Pappus and Guldinus
• The theorems of Pappus and Guldinus are used to find the surfaces area and volume of any object of revolution provided the generating curves and areas do not cross the axis they are rotated
Surface Area• Area of a surface of revolution = product of length of
the curve and distance traveled by the centroid in generating the surface area
LrA
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Theorems of Pappus and Guldinus
Volume• Volume of a body of revolution = product of generating
area and distance traveled by the centroid in generating the volume
ArV
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Example
Show that the surface area of a sphere is A = 4πR2 and its volume V = 4/3 πR3.
SolutionSurface AreaGenerated by rotating semi-arc about the x axisFor centroid,
For surface area,
/2Rr
2422
;~
RRRA
LrA
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Solution
VolumeGenerated by rotating semicircular area about the x axisFor centroid,
For volume,
3234
21
342
;~
3/4
RRRV
ArV
Rr
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Friction8
STATICSAssist. Prof. Dr. Cenk Üstündağ
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Chapter Objectives
• Introduce the concept of dry friction • To present specific applications of frictional force
analysis on wedges, screws, belts, and bearings• To investigate the concept of rolling resistance
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Chapter Outline
1. Characteristics of Dry Friction2. Problems Involving Dry Friction3. Wedges4. Frictional Forces on Screws5. Frictional Forces on Flat Belts
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Characteristics of Dry Friction
Friction• Force that resists the movement of two contacting
surfaces that slide relative to one another• Acts tangent to the surfaces at points of contact with
other body• Opposing possible or existing motion of the body
relative to points of contact• Two types of friction – Fluid and Coulomb Friction
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Characteristics of Dry Friction
• Fluid friction exist when the contacting surface are separated by a film of fluid (gas or liquid)
• Depends on velocity of the fluid and its ability to resist shear force
• Coulomb friction occurs between contacting surfaces of bodies in the absence of a lubricating fluid
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Characteristics of Dry Friction
Theory of Dry Friction• Consider the effects caused by pulling horizontally on
a block of uniform weight W which is resting on a rough horizontal surface
• Consider the surfaces of contact to be nonrigid or deformable and other parts of the block to be rigid
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Characteristics of Dry Friction
Theory of Dry Friction• Normal force ∆Nn and frictional force
∆Fn act along the contact surface
• For equilibrium, normal forces act upward to balance the block’s weight W, frictional forces act to the left to prevent force P from moving the block to the right
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Characteristics of Dry Friction
Theory of Dry Friction• Many microscopic irregularities exist between the two
surfaces of floor and the block
• Reactive forces ∆Rn developed at each of the protuberances
• Each reactive force consist of both a frictional component ∆Fn and normal component ∆Nn
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Characteristics of Dry Friction
Theory of Dry FrictionEquilibrium• Effect of normal and frictional loadings are indicated
by their resultant N and F• Distribution of ∆Fn indicates that F is tangent to the
contacting surface, opposite to the direction of P• Normal force N is determined
from the distribution of ∆Nn
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Characteristics of Dry Friction
Theory of Dry FrictionEquilibrium• N is directed upward to balance W• N acts a distance x to the right of the line of action of
W• This location coincides with the centroid or the
geometric center of the loading diagram in order to balance the “tipping effect” caused by P
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Characteristics of Dry Friction
Theory of Dry FrictionImpending Motion• As P is slowly increased, F correspondingly increase
until it attains a certain maximum value F, called the limiting static frictional force
• Limiting static frictional force Fs is directly proportional to the resultant normal force N
Fs = μsN
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Characteristics of Dry Friction
Theory of Dry FrictionImpending Motion• Constant of proportionality μs is known as the
coefficient of static friction• Angle Φs that Rs makes with N is called the angle of
static friction
sss
s NN
NF 111 tantantan
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Characteristics of Dry Friction
Theory of Dry Friction
Typical Values of μs
Contact Materials Coefficient of Static Friction μs
Metal on ice 0.03 – 0.05
Wood on wood 0.30 – 0.70
Leather on wood 0.20 – 0.50
Leather on metal 0.30 – 0.60
Aluminum on aluminum 1.10 – 1.70
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Characteristics of Dry Friction
Theory of Dry FrictionMotion• When P is greater than Fs, the frictional force is
slightly smaller value than Fs, called kinetic frictional force
• The block will not be held in equilibrium (P > Fs) but slide with increasing speed
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Characteristics of Dry Friction
Theory of Dry FrictionMotion• The drop from Fs (static) to Fk (kinetic) can by
explained by examining the contacting surfaces• When P > Fs, P has the capacity to shear off the
peaks at the contact surfaces
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Characteristics of Dry Friction
Theory of Dry Friction• Resultant frictional force Fk is directly proportional to
the magnitude of the resultant normal force NFk = μkN
• Constant of proportionality μk is coefficient of kinetic friction
• μk are typically 25% smaller than μs
• Resultant Rk has a line of action defined by Φk, angle of kinetic friction
kkk
k NN
NF 111 tantantan
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Characteristics of Dry Friction
Theory of Dry Friction• F is a static frictional force if equilibrium is maintained• F is a limiting static frictional force when it reaches a
maximum value needed to maintain equilibrium• F is termed a kinetic frictional force when sliding
occurs at the contacting surface
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Characteristics of Dry Friction
Characteristics of Dry Friction• The frictional force acts tangent to the contacting
surfaces• The max static frictional force Fs is independent of the
area of contact• The max static frictional force is greater than kinetic
frictional force • When slipping, the max static frictional force is
proportional to the normal force and kinetic frictional force is proportional to the normal force
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Problems Involving Dry Friction
Types of Friction Problems• In all cases, geometry and dimensions are assumed
to be known• 3 types of mechanics problem involving dry friction
- Equilibrium- Impending motion at all points- Impending motion at some points
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Problems Involving Dry Friction
Types of Friction ProblemsEquilibrium• Total number of unknowns = Total number of
available equilibrium equations• Frictional forces must satisfy F ≤ μsN; otherwise,
slipping will occur and the body will not remain in equilibrium
• We must determine the frictional forces at A and C to check for equilibrium
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Problems Involving Dry Friction
Equilibrium Versus Frictional Equations• Frictional force always acts so as to oppose the
relative motion or impede the motion of the body over its contacting surface
• Assume the sense of the frictional force that require F to be an “equilibrium” force
• Correct sense is made after solving the equilibrium equations
• If F is a negative scalar, the sense of F is the reverse of that assumed
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Example
The uniform crate has a mass of 20kg. If a force P = 80N is applied on to the crate, determine if it remains in equilibrium. The coefficient of static friction is μ = 0.3.
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Solution
Resultant normal force NC act a distance x from the crate’s center line in order to counteract the tipping effect caused by P.
3 unknowns to be determined by 3 equations of equilibrium.
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SolvingmmmxNNF
xNmNmN
MNNN
FFN
F
NC
C
O
C
y
x
08.900908.0 ,3.69
0)()2.0(30cos80)4.0(30sin80
;002.19630sin80
;0030cos80
;0
236
Solution
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Since x is negative, the resultant force acts (slightly) to the left of the crate’s center line.
No tipping will occur since x ≤ 0.4m
Max frictional force which can be developed at the surface of contact
Fmax = μsNC = 0.3(236N) = 70.8N
Since F = 69.3N < 70.8N, the crate will not slip thou it is close to doing so.
Solution
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Wedges
• A simple machine used to transform an applied force into much larger forces, directed at approximately right angles to the applied force
• Used to give small displacements or adjustments to heavy load
• Consider the wedge used to lift a block of weight W by applying a force P to the wedge
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Wedges
• FBD of the block and the wedge
• Exclude the weight of the wedge since it is small compared to weight of the block
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Example
The uniform stone has a mass of 500kg and is held in place in the horizontal position using a wedge at B. if the coefficient of static friction μs = 0.3, at the surfaces of contact, determine the minimum force P needed to remove the wedge. Is the wedge self-locking? Assume that the stone does not slip at A.
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Solution
Minimum force P requires F = μs NA at the surfaces of contact with the wedge.FBD of the stone and the wedge as below.On the wedge, friction force opposes the motion and on the stone at A, FA ≤ μsNA, slipping does not occur.
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Solution
5 unknowns, 3 equilibrium equations for the stone and 2 for the wedge.
kNNPNN
NN
F
NP
FNN
mNNmNNmN
M
C
C
y
C
x
B
BB
A
15.19.11545.2452
0)7sin1.2383(3.07cos1.2383
;0
03.0)7cos1.2383(3.07sin1.2383
;01.2383
0)1)(7sin3.0()1)(7cos()5.0(4905
;0
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Solution
Since P is positive, the wedge must be pulled out.
If P is zero, the wedge would remain in place (self-locking) and the frictional forces developed at B and C would satisfy
FB < μsNB
FC < μsNC
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Frictional Forces on Screws
• Screws used as fasteners• Sometimes used to transmit power or motion from one
part of the machine to another• A square-ended screw is commonly used for the latter
purpose, especially when large forces are applied along its axis
• A screw is thought as an inclined plane or wedge wrapped around a cylinder
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Frictional Forces on Screws
• A nut initially at A on the screw will move up to B when rotated 360° around the screw
• This rotation is equivalent to translating the nut up an inclined plane of height l and length 2πr, where r is the mean radius of the head
• Applying the force equations of equilibrium, we have srWM tan
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Frictional Forces on Screws
Downward Screw Motion• If the surface of the screw is very slippery, the screw
may rotate downward if the magnitude of the moment is reduced to say M’ < M
• This causes the effect of M’ to become S’M’ = Wr tan(θ – Φ)
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Example
The turnbuckle has a square thread with a mean radius of 5mm and a lead of 2mm. If the coefficient of static friction between the screw and the turnbuckle is μs = 0.25, determine the moment M that must be applied to draw the end screws closer together. Is the turnbuckle self-locking?
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Solution
Since friction at two screws must be overcome, this requires
Solving
When the moment is removed, the turnbuckle will be self-locking
64.352/2tan2/tan
04.1425.0tantan,5,2000tan2
11
11
mmmmr
mmrNWWrM
ss
mNmmN
mmNM.37.6.7.6374
64.304.14tan520002
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Frictional Forces on Flat Belts
• It is necessary to determine the frictional forces developed between the contacting surfaces
• Consider the flat belt which passes over a fixed curved surface
• Obviously T2 > T1
• Consider FBD of the belt segment in contact with the surface
• N and F vary both in magnitude and direction
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Frictional Forces on Flat Belts
• Consider FBD of an element having a length ds • Assuming either impending motion or motion of the belt,
the magnitude of the frictional force dF = μ dN
• Applying equilibrium equations
02
sin2
sin)(
;0
02
cos)(2
cos
;0
dTddTTdN
F
ddTTdNdT
F
y
x
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Frictional Forces on Flat Belts
• We have
eTT
TTIn
dTdT
TTTT
dTdT
TddNdTdN
T
T
12
1
2
0
21
2
1
,,0,
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Example
The maximum tension that can be developed In the cord is 500N. If the pulley at A is free to rotate and the coefficient of static friction at fixed drums B and C is μs = 0.25, determine the largest mass of cylinder that can be lifted by the cord. Assume that the force F applied at the end of the cord is directed vertically downward.
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Example
Weight of W = mg causes the cord to move CCW over the drums at B and C.Max tension T2 in the cord occur at D where T2 = 500NFor section of the cord passing over the drum at B 180° = π rad, angle of contact between drum and cord
β = (135°/180°)π = 3/4π rad
NNe
NT
eTN
eTT s
4.27780.1
500500500
;
4/325.01
4/325.01
12
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Example
For section of the cord passing over the drum at CW < 277.4N
kgsm
NgWm
NWWe
eTT s
7.15/81.9
9.153
9.1534.277
;
2
4/325.012
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Cables9
STATICSAssist. Prof. Dr. Cenk Üstündağ
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Cables
• Cables are often used in engineering structures for support and to transmit loads from one member to another. When used to support suspension roofs and bridges, cables form the main load-carrying element in the structure.
• In the force analysis of such systems, the weight of the cable itself may be neglected; however, when cables are used as guys for radio antennas, electrical transmission lines and derricks, the cable weight may become important and must be included in the structural analysis.
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Cables
• Assumptions when deriving the relations between force in cable & its slope– Cable is perfectly flexible & inextensible
• Due to its flexibility, cable offers no resistance to shear or bending
• The force acting the cable is always tangent to the cable at points along its length
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Cable subjected to concentrated loads
• When a cable of negligible weight supports several concentrated loads, the cable takes the form of several straight line segments
• Each of the segment is subjected to a constant tensile force• specifies the angle
of the chord AB• L = cable length
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Cable subjected to concentrated loads
• If L1, L2 & L3 and loads P1 & P2 are known, determine the 9 unknowns consisting of the tension of in each of the 3 segments, the 4 components of reactions at A & B and the sags yC & yD
• For solutions, we write 2 equationsof equilibrium at each of 4 points A, B, C & D
• Total 8 equations• The last equation comes from the
geometry of the cable
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Determine the tension in each segment of the cable. Also, what is the dimension h?
Example
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By inspection, there are 4 unknown external reactions (Ax,
Ay, Dx and Dy) 3 unknown cable tensions
These unknowns along with the sag h can be determined from available equilibrium equations applied to points A through D.
A more direct approach to the solution is to recognize that the slope of cable CD is specified.
Solution
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Solution
03 5 2 4 5 5 5 3 2 8 4 0
6 79
A
CD CD
CD
With anti‐clockwise as positiveM
T ( / )( m) T ( / )( . m) kN( m) kN( m)T . kN
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Solution
06 79 3 5 0
06 79 4 5 8 0
32 3 4 82
x
BC BC
y
BC BC
oBC BC
Now we can analyze the equilibrium of points C and B in sequence.
Point C:F
. kN( / ) T cos
F
. kN( / ) kN T sin
. and T . kN
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Solution
04 82 32 3 0
0
4 82 32 3 3 053 8 6 90
2 53 8 2 74
x
oBA BA
y
oBA BA
oBA BA
o
Point B:F
T cos . kNcos .
F
T sin . kNsin . kN
. and T . kN
h ( m)tan . . m
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Cable subjected to a uniform distributed load
• The x,y axes have their origin located at the lowest point on the cable such that the slope is zero at this point
• Since the tensile force in the cable changes continuously in both magnitude & direction along the cable’s length, this load is denoted by T
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Cable subjected to a uniform distributed load
• The distributed load is represented by its resultant force w0x which acts at x/2 from point O
• Applying equations of equilibrium yields:
0
0
0
00
00
02 0
x
y
FTcos (T T)cos( )
F
Tsin w ( x) (T T)sin( )With anti‐clockwise as positiveM
w ( x)( x / ) Tcos y Tsin x
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Cable subjected to a uniform distributed load
• Dividing each of these equations by x and taking the limit as x 0, hence, y 0 , 0 and T 0 , we obtain:
0
0d(Tcos ) eqn 1
dxd(Tsin )
w eqn 2dx
dytan eqn 3
dx
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Cable subjected to a uniform distributed load
• Integrating eqn 1 where T = T0 at x = 0, we have:
which indicates the horizontal component of force at any point along the cable remains constant
• Integrating eqn 2, realizing that Tsin = 0 at x = 0, we have:
0Tcos T eqn 4
0Tsin w x eqn 5
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Cable subjected to a uniform distributed load
• Dividing eqn 5 by eqn 4 eliminates T• Then using eqn 3, we can obtain the slope at any point
• Performing a second integration with y = 0 at x = 0 yields
20
02w
y x eqn 7T
0
0
w xdytan eqn 6
dx T
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Cable subjected to a uniform distributed load
• This is the equation of parabola • The constant T0 may be obtained by using the boundary
condition y = h at x = L• Thus
• Substituting into eqn 7
22
hy x eqn 9
L
20
0 2w L
T eqn 8h
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Cable subjected to a uniform distributed load
• From eqn 4, the maximum tension in the cable occurs when is maximum; i.e., at x = L.
• Hence from eqn 4 and 5
• Using eqn 8 we can express Tmax in terms of w0
2 20 0maxT T (w L) eqn 10
20 1 2maxT w L (L / h) eqn 11
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Cable subjected to a uniform distributed load
• We have neglect the weight of the cable which is uniform along the length
• A cable subjected to its own weight will take the form of a catenary curve
• If the sag-to-span ratio is small, this curve closely approximates a parabolic shape
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The cable supports a girder which weighs 12kN/m. Determine the tension in the cable at points A, B & C.
Example 5.2
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The origin of the coordinate axes is established at point B, the lowest point on the cable where slope is zero,
Assuming point C is located x’ from B we have:
Solution
2 2 20
0 0 0
62 2w 12kN/m
y x x x (1) T T T
2 20
0
66 1 0x' T . x' (2) T
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For point A,
Thus from equations 2 and 1, we have:
Solution
2
0
22
2
612 30
612 301 060 900 0 12 43
[ ( x')]T
[ ( x')]. x'
x' x' x' . m
20 1 0 12 43 154 4
12 0 7772154 4
T . ( . ) . kNdy
x . x (3)dx .
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At point A,
We have,
Solution
17 57
30 12 43 17 57
0 7772 17 57 1 366
53 79
Ax .
oA
x ( . ) . m
dytan . ( . ) .
dx
.
0 154 4 261 453 79A o
A
T .T . kN
cos cos( . )
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At point B, x = 0
At point C, x = 12.43m
Solution
0
0
0 0
154 4 154 40
oB B
x
B oB
dytan
dxT .
T . kNcos cos
12 43
0
0 7772 12 43 0 9657
44 0154 4 214 6
44 0
Cx .
oC
C oC
dytan . ( . ) .
dx
.T .
T . kNcos cos .
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Moments of Inertia10
STATICSAssist. Prof. Dr. Cenk Üstündağ
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Definition of Moments of Inertia for Areas
• Centroid for an area is determined by the first moment of an area about an axis
• Second moment of an area is referred as the moment of inertia
• Moment of inertia of an area originates whenever one relates the normal stress σ or force per unit area
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Definition of Moments of Inertia for Areas
Moment of Inertia• Consider area A lying in the x-y plane• Be definition, moments of inertia of the differential
plane area dA about the x and y axes
• For entire area, moments of inertia are given by
Ay
Ax
yx
dAxI
dAyI
dAxdIdAydI
2
2
22
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Definition of Moments of Inertia for Areas
Moment of Inertia• Formulate the second moment of dA about the pole O
or z axis• This is known as the polar axis
where r is perpendicular from the pole (z axis) to the element dA
• Polar moment of inertia for entire area,
dArdJO2
yxAO IIdArJ 2
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Parallel Axis Theorem for an Area
• For moment of inertia of an area known about an axis passing through its centroid, determine the moment of inertia of area about a corresponding parallel axis using the parallel axis theorem
• Consider moment of inertia of the shaded area• A differential element dA is
located at an arbitrary distance y’from the centroidal x’ axis
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Parallel Axis Theorem for an Area
• The fixed distance between the parallel x and x’ axes is defined as dy
• For moment of inertia of dA about x axis
• For entire area
• First integral represent the moment of inertia of the area about the centroidal axis
AyAyA
A yx
yx
dAddAyddAy
dAdyI
dAdydI
22
2
2
'2'
'
'
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Parallel Axis Theorem for an Area
• Second integral = 0 since x’ passes through the area’s centroid C
• Third integral represents the total area A
• Similarly
• For polar moment of inertia about an axis perpendicular to the x-y plane and passing through pole O (z axis)
2
2
2
0;0'
AdJJ
AdII
AdII
ydAydAy
CO
xyy
yxx
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Radius of Gyration of an Area
• Radius of gyration of a planar area has units of length and is a quantity used in the design of columns in structural mechanics
• For radii of gyration
• Similar to finding moment of inertia of a differential area about an axis
dAydIAkI
AJk
AI
kAIk
xxx
Oz
yy
xx
22
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Example
Determine the moment of inertia for the rectangular area with respect to (a) the centroidal x’ axis, (b) the axis xbpassing through the base of the rectangular, and (c) the pole or z’ axis perpendicular to the x’-y’ plane and passing through the centroid C.
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Solution
Part (a)Differential element chosen, distance y’ from x’ axis.Since dA = b dy’,
Part (b)By applying parallel axis theorem,
32/
2/
22/
2/
22
121')'('' bhdyybdyydAyI
h
h
h
hAx
32
32
31
2121 bhhbhbhAdII xxb
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Solution
Part (c)For polar moment of inertia about point C,
)(121
121
22'
3'
bhbhIIJ
hbI
yxC
y
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Moments of Inertia for Composite Areas
• Composite area consist of a series of connected simpler parts or shapes
• Moment of inertia of the composite area = algebraic sum of the moments of inertia of all its parts
Procedure for AnalysisComposite Parts• Divide area into its composite parts and indicate the
centroid of each part to the reference axisParallel Axis Theorem• Moment of inertia of each part is determined about its
centroidal axis
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Moments of Inertia for Composite Areas
Procedure for AnalysisParallel Axis Theorem• When centroidal axis does not coincide with the
reference axis, the parallel axis theorem is used Summation• Moment of inertia of the entire area about the
reference axis is determined by summing the results of its composite parts
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Example
Compute the moment of inertia of the composite area about the x axis.
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Solution
Composite PartsComposite area obtained by subtracting the circle form the rectangle.Centroid of each area is located in the figure below.
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Solution
Parallel Axis TheoremCircle
Rectangle
46224
2'
104.1175252541 mm
AdII yxx
4623
2'
105.11275150100150100121 mm
AdII yxx
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Solution
SummationFor moment of inertia for the composite area,
46
66
10101
105.112104.11
mm
Ix
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Product of Inertia for an Area
• Moment of inertia for an area is different for every axis about which it is computed
• First, compute the product of the inertia for the area as well as its moments of inertia for given x, y axes
• Product of inertia for an element of area dA located at a point (x, y) is defined as
dIxy = xydA• Thus for product of inertia,
Axy xydAI
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Product of Inertia for an Area
Parallel Axis Theorem• For the product of inertia of dA with respect to the x
and y axes
• For the entire area,
• Forth integral represent the total area A,
dAdydxdIA yxxy ''
AyxAyA Ax
A yxxy
dAdddAxddAyddAyx
dAdydxdI
''''
''
yxyxxy dAdII ''
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Example
Determine the product Ixy of the triangle.
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Solution
Differential element has thickness dx and area dA = y dxUsing parallel axis theorem,
locates centroid of the element or origin of x’, y’ axes
yxdAIddI xyxy~~
yx ~,~
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Solution
Due to symmetry,
Integrating we have
2/~,~0 yyxxId xy
82
22
0
32
2 hbdxxbhI
b
xy
dxxbhx
bhxxdx
bhyxydxdIxy
32
2
222)(0
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Solution
Differential element has thickness dy and area dA = (b - x) dy.For centroid,
For product of inertia of elementyyxbxbxx ~,2/)(2/)(~
dyyhbbyyyhbbdyy
hbb
yxbdyxbyxdAIddI xyxy
22
22
21
2/
2)(0~~~
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Moments of Inertia for an Area about Inclined Axes
• In structural and mechanical design, necessary to calculate Iu, Iv and Iuv for an area with respect to a set of inclined u and v axes when the values of θ, Ix, Iy and Ixy are known
• Use transformation equations which relate the x, y and u, v coordinates
dAxyyxuvdAdIdAyxdAudI
dAxydAvdIxyvyxu
uv
v
u
)sincos)(sincos()sincos(
)sincos(sincossincos
22
22
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Moments of Inertia for an Area about Inclined Axes
• Integrating,
• Simplifying using trigonometric identities,
)sin(cos2cossincossin
cossin2cossin
cossin2sincos
22
22
22
xyyxuv
xyyxv
xyyxu
IIII
IIII
IIII
22 sincos2cos
cossin22sin
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Moments of Inertia for an Area about Inclined Axes
• We can simplify to
• Polar moment of inertia about the z axis passing through point O is,
2cos22sin2
2sin2cos22
2sin2cos22
xyyx
uv
xyyxyx
v
xyyxyx
u
III
I
IIIII
I
IIIII
I
yxvuO IIIIJ
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Moments of Inertia for an Area about Inclined Axes
Principal Moments of Inertia• Iu, Iv and Iuv depend on the angle of inclination θ of the
u, v axes• The angle θ = θp defines the orientation of the principal
axes for the area
2/2tan
02cos22sin2
2
yx
xyp
p
xyyxu
III
III
ddI
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Moments of Inertia for an Area about Inclined Axes
Principal Moments of Inertia• Substituting each of the sine and cosine ratios, we
have
• Result can gives the max or min moment of inertia for the area
• It can be shown that Iuv = 0, that is, the product of inertia with respect to the principal axes is zero
• Any symmetric axis represent a principal axis of inertia for the area
22
maxmin 22 xy
yxyx IIIII
I