course: engineering mechanics code: ameb03 institute of ... · three forces are acting on the...
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COURSE: ENGINEERING MECHANICSCODE: AMEB03
Institute of Aeronautical Engineering(Autonomous)
Dundigal, Hyderabad- 500043
Dr. CH. SANDEEPAssociate Professor
Mechanical Engineering
Prepared by
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COURSE OBJECTIVES
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1. Ability to work comfortably with basic engineering mechanics conceptsrequired for analyzing static structures.
2. Identify an appropriate structural system to studying a given problemand isolate it from its environment, model the problem using good freebody diagrams and accurate equilibrium equations.
3. Identify and model various types of loading and support conditions thatact on structural systems, apply pertinent mathematical, physical andengineering mechanical principles to the system to solve and analyze theproblem.
4. Understand the meaning of centre of gravity (mass)/ centroid andmoment of inertia using integration methods and method of moments.
The course should enable the students to: to:
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COURSE LEARNING OUTCOMES (CLOs)
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After completing this course the student must demonstrate the knowledgeand ability to:
1. A basic understanding of the laws and principle of mechanics.2. The ability to solve simple force system problems in mechanics.3. Determine the resultant and apply conditions of static equilibrium.4. Solve the problems of simple systems with the friction, calculate the
linear moving bodies in general plane motion and applications.5. Analyze planer and spatial systems to determine the force in the
members of truss and frames of friction to a plane force system.6. Solve the problems on different types of beams.7. Obtain the centroid, center of gravity, first moment and second moment
of area.8. Understand the concept of virtual work and an ability to solve practical
problems.9. Understand the concepts of kinematics of the particles and rectilinear
motion.
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COURSE LEARNING OUTCOMES (CLOs)
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10. Explore knowledge & ability to solve various particle motion problems.
11. Derive the D’ Alembert’s principle and apply it to various field problemsof kinetic motion.
12. Determine the impact, impulse and impulsive forces occurring in thesystem and able to solve the problems.
13. Develop the work energy relations and apply to connected systems.
14. Understand the fixed axis rotation theory and solving the field problemsby application of work energy method.
15. Introduction to concepts of vibration and explain the relation betweensimple harmonic motion and the equilibrium systems.
16. Derive the expressions for the concepts of simple, compound andtorsional pendulums.
17. Explore the use of modern engineering tools, software and equipment toprepare for competitive exams, higher studies etc.
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INTRODUCTION TO MECHANICS
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MODULE I
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INTRODUCTION TO MECHANICS
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What is mechanics?
Physical science deals with the state of rest or motion of bodies under the action of force.
Why we study mechanics?
This science form the groundwork for further study in the design and analysis of structures.
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BASIC TERMS
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Essential basic terms to be understood
• Statics: dealing with the equilibrium of a rigid-body at rest
• Rigid body: the relative movement between its parts are negligible
• Dynamics: dealing with a rigid-body in motion
• Length: applied to the linear dimension of a straight line or curved line
• Area: the two dimensional size of shape or surface
• Volume: the three dimensional size of the space occupied by substance
• Force: the action of one body on another whether it’s a push or a pull force
• Mass: the amount of matter in a body
• Weight: the force with which a body is attracted toward the centre of the Earth
• Particle: a body of negligible dimension
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A basic requirement for the study of the mechanics of deformable bodies andthe mechanics of fluids (advanced courses).
Essential for the design and analysis of many types of structural members,mechanical components, electrical devices etc, encountered in engineering.
A rigid body does not deform under load!
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RIGID-BODY MECHANICS
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Statics: Deals with equilibrium of bodies under action of forces (bodies may be
either at rest or move with a constant velocity).
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RIGID-BODY MECHANICS
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Dynamics: Deals with motion of bodies (accelerated motion)
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RIGID-BODY MECHANICS
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FORCE SYSTEMS BASIC CONCEPTS
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Systems of forces: Several forces acting simultaneously upon a body.
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COPLANAR SYSTEM OF FORCES 2D
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NONCOPLANAR SYSTEM OF FORCES 3D
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METHOD OF APPROACH TO SOLVE CONCURRENT AND NON-CONCURRENT FORCE SYSTEMS
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METHOD OF APPROACH TO SOLVE COPLANAR (2D) PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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EQUATIONS OF EQUILIBRIUM
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TYPES OF SUPPORTS REACTION FORCES (2D)
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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PROBLEMS
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TYPES OF SUPPORTS AND REACTION FORCES (2D)
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TYPES OF SUPPORTS AND REACTION FORCES (2D)
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TYPES OF SUPPORTS AND REACTION FORCES (2D)
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TYPES OF SUPPORTS AND REACTION FORCES (2D)
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METHOD OF APPRAOCH TO SLOVE NON COPLANAR (3D STATIC PROBLEMS)
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METHOD OF APPRAOCH TO SLOVE NON COPLANAR (3D STATIC PROBLEMS)
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RESULTANT OF CONCURRENT FORCES IN 3D
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RESULTANT OF CONCURRENT FORCES IN 3D
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RESULTANT OF CONCURRENT FORCES IN 3D
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RESULTANT OF CONCURRENT FORCES IN 3D
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FREE BODY DAIGRAM
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A free-body diagram is picture that represents one or more objects, along
with the forces acting on those objects. The objects are almost always
drawn as rectangles or circles, just for the sake of simplicity, and the forces
are always shown as vectors. Below figures show few examples. Free-body
diagrams are important because they help us to see forces as vectors. And
if you can add vectors, you can analyze free-body diagram.
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FREE BODY DAIGRAM
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Let's look at the two examples in Figure 10.1. In the first, force is directed
down. This force, which is the force of gravity, was labeled in the diagram
as "weight." The force of gravity on the hippo (that is, the hippo's weight)
pulls downward. In the second example, a force is directed to the right.
The pineapple is being pulled by rope to the right.
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EQUATIONS OF EQUILIBRIUM OF COPLANAR SYSTEMS
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A particle is in equilibrium if it is stationary or it moves uniformly relativeto an inertial frame of reference. A body is in equilibrium if all the particlesthat may be considered to comprise the body are in equilibrium.
One can study the equilibrium of a part of the body by isolating the partfor analysis. Such a body is called a free body. We make a free bodydiagram and show all the forces from the surrounding that act on thebody. Such a diagram is called a free-body diagram. For example, considera ladder resting against a smooth wall and floor. The free body diagram ofladder is shown in the right.
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EQUATIONS OF EQUILIBRIUM OF COPLANAR SYSTEMS
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Three forces are acting on the ladder. Gravitational pull of the earth(weight), W of the ladder, reaction of the floor R2 and reaction of the wallR1 .When a body is in equilibrium, the resultant of all forces acting on it iszero. Thus that resultant force R and the resultant couple M R are bothzero, and we have the equilibrium equations
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EQUATIONS OF EQUILIBRIUM OF COPLANAR SYSTEMS
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Three forces are acting on the ladder. Gravitational pull of the earth(weight), W of the ladder, reaction of the floor R2 and reaction of the wallR1 .When a body is in equilibrium, the resultant of all forces acting on it iszero. Thus that resultant force R and the resultant couple M R are bothzero, and we have the equilibrium equations
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EQUILIBRIUM
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EQUILIBRIUM
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EQUILIBRIUM
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FRICTION AND BASICS STRUCTURAL ANALYSIS
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MODULE II
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FRICTION
Friction is the force distribution at the surface of contact between twobodies that prevents or impedes sliding motion of one body relative to theother. This force distribution is tangent to the contact surface and has, forthe body under consideration, a direction at every point in the contactsurface that is in opposition to the possible or existing slipping motion ofthe body at that point.
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TYPES OF FRICTION
1. Dry friction:
Dry friction occurs when the unlubricated (rough) surfaces of two solids arein contact under a condition of sliding or a tendency to slide. A friction forcetangential to the surfaces of contact occurs both during the interval leadingup to impending slippage and while slippage takes place. The direction ofthis friction force always opposes the motion or impending motion. Thistype of friction is also called Coulomb friction.
2. Fluid friction:
Fluid friction occurs when adjacent layers in a fluid (liquid or gas) aremoving at different velocities. This motion causes frictional forces betweenfluid elements, and these forces depend on the relative velocity betweenlayers. When there is relative velocity between layers, there is no fluidfriction. Fluid friction depends on the velocity gradients within the fluid andon the viscosity of the fluid.
3. Internal friction:
Internal friction occurs in all solid materials subjected to cycle loading.
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LIMITING FRICTION
The maximum friction that can be generated between two static surfaces incontact with each other. Once a force applied to the two surfaces exceedsthe limiting friction, motion will occur. For two dry surfaces, the limitingfriction is a product of the normal reaction force and the coefficientof limiting friction.
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LAWS OF FRICTION
Laws of friction:
(1) The force of friction always acts in a direction opposite to that in which the body tends to move.
(2) Till the limiting value is reached, the magnitude of friction is exactly equal to the force which tends to move the body.
(3) The magnitude of the limiting friction bears a constant ratio to the normal reaction between the two surfaces.
(4) The force of friction depends upon the roughness/smoothness of the surfaces.
(5) The force of friction is independent of the area of contact between the two surfaces.
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STATIC AND DYNAMIC FRICTION
A wedge is a piece of metal or wood which is usually of a triangular ortrapezoidal in cross-section. It is used for either lifting loads through smallvertical distances or used for slight adjustments in the position of a bodyi.e., for tightening fits or keys for shafts.
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SCREW JACK & DIFFERENTIAL
A jackscrew, or screw jack, is a type of jack that is operated by turning a leadscrew. It is commonly used to lift moderately heavy weights, such asvehicles; to raise and lower the horizontal stabilizers of aircraft; and anadjustable supports for heavy loads, such as the foundations of houses
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SCREW JACK & DIFFERENTIAL
A differential screw is a mechanism used for making small, preciseadjustments to the spacing between two objects (such as in focusinga microscope moving the anvils of a micrometer or positioning optics). Adifferential screw uses a spindle with two screw threads ofdiffering leads (aka thread pitch), and possibly opposite handedness, onwhich two nuts move. As the spindle rotates, the space between the nutschanges based on the difference between the threads.
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SCREW JACK & DIFFERENTIAL
A differential screw is a mechanism used for making small, preciseadjustments to the spacing between two objects (such as in focusinga microscope moving the anvils of a micrometer or positioning optics). Adifferential screw uses a spindle with two screw threads ofdiffering leads (aka thread pitch), and possibly opposite handedness, onwhich two nuts move. As the spindle rotates, the space between the nutschanges based on the difference between the threads.
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EQUILIBRIUM IN THREE DIMENSIONS
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METHODS OF SECTIONS
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METHODS OF SECTIONS
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METHODS OF JOINTS
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METHODS OF JOINTS
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METHODS OF JOINTS
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TYPES OF BEAMS
Different Types of Beams.
Beams are generally horizontal structural members which transfer loadshorizontally along their length to the supports where the loads are usuallyresolved into vertical forces. Beams are used for resisting vertical loads, shearforces and bending moments
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TYPES OF BEAMS
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TYPES OF BEAMS
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FRAMES AND MACHINES
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RIGID FRAME
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PULLEY SYSTEMS
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MODULE III
CENTROID AND CENTRE OF GRAVITY AND VIRTUAL WORK AND ENERGY
METHOD
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CENTROID OF SIMPLE FIGURE FROM FIRST PRINCIPLE
The centroid of an area is situated at its geometrical centre. In each of thefollowing figures ‘G’ represents the centroid, and if each area was suspendedfrom this point it would balance.
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CENTER OF GRAVITY
The centre of gravity of a body is:
• The point at which all the mass of the body may be assumed to beconcentrated.
• The point through which the force of gravity is considered to act verticallydownwards, with a force equal to the weight of the body.
• The point about which the body would balance.
• The centre of gravity of a homogeneous body is at its geometrical centre.
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CENTER OF GRAVITY
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CENTROID OF COMPOSITE SECTIONS
in cases where the shape has an axis
of symmetry, the centroid of the shape
will lie along the axis
if the shape has two or three axes ofsymmetry,the centroid lies at the intersection of theseaxes
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CENTROID OF COMPOSITE SECTIONS
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CENTROID OF COMPOSITE SECTIONS
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CENTROID OF COMPOSITE SECTIONS
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THEOREMS OF PAPPUS AND GULDINUS
surface area of revolution is generated by revolving a plane curve about anonintersecting fixed axis in the plane of the curve
volume of revolution is generated by revolving a plane area about anonintersecting fixed axis in the plane of the area
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AREA MOMENT OF INERTIA
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AREA MOMENT OF INERTIA
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AREA MOMENT OF INERTIA
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AREA MOMENT OF INERTIA
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AREA MOMENT OF INERTIA
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INTRODUCTION TO CENTROIDS & CENTRE OF GRAVITY
• Basic Definitions: The central point is defined as a pointwhere the entire physical quantity (length/area/volume)can be assumed to be concentrated to give the same firstmoment of as that obtained by considering the elements ofthe body.
• The central points for a length, an area and a volume arecalled the centroids whereas the central points for thedistribution of mass and gravitational force are termed asthe centre of mass and centre of gravity respectively.
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Basic Definitions: The term centroid is purely related to anygeometric shape which does not involve the property of massor weight.
Centroid of Area: It is a point where the entire area of a planeis supposed to concentrate.
Centroid of Volume: It is a point where the entire volume of aplane is supposed to concentrate
Centre of Gravity: It is a point where the entire weight of the body is assumed to concentrate.
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INTRODUCTION TO CENTROIDS & CENTRE OF GRAVITY
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INTRODUCTION TO CENTROIDS & CENTRE OF GRAVITY
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INTRODUCTION TO CENTROIDS & CENTRE OF GRAVITY
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INTRODUCTION TO CENTROIDS & CENTRE OF GRAVITY
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Problem 1: To locate the centroid of straight line.
Problem 2: To locate the centroid of the curve AB bent in theshape of a quadrant.
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PROBLEMS ON FINDING THE CENTROID FOR SIMPLE FIGURES
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Problem 3: To locate the centroid of curve.
Problem 4: To locate the centroid of the curve
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PROBLEMS ON FINDING THE CENTROID FOR SIMPLE FIGURES
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Problem 5: To locate the centroid of shaded area
Problem 6: To locate the centroid of the shaded area
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PROBLEMS ON FINDING THE CENTROID FOR SIMPLE FIGURES
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Problem 7: To locate the centroid of quadrant of a circle
Problem 8: To locate the centroid of the semi-circle.
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PROBLEMS ON FINDING THE CENTROID FOR SIMPLE FIGURES
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Problem 1: To locate the centroid of shaded area
x = 0 (symmetrical about y-axis)
y = (20x5x10 + 20x5x10+30x5x2.5) /(20x5+20x5+30x5)
y = 6.786 cm
PROBLEMS ON FINDING THE CENTROID FOR SIMPLE FIGURES
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Problem 2: To locate the centroid of shaded area
x = (50x10x5+30x10x25+20x10x45)/ (50x10+30x10+20x10)
x = 19 mm
y = (50x10x5+30x10x5+20x10x10)/ (50x10+30x10+20x10)
y = 6 mm
PROBLEMS ON FINDING THE CENTROID FOR SIMPLE FIGURES
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Problem 3: To locate the centroid of shaded area
AD=64.03MM
Θ = 38.66O
BC =CD Tan Θ = 16mm
Xc =7.446 mm
Yc = 7.446 mm
Problems on finding the centroid for simple figures
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It is a property of a shape of a plane geometric figure that isused to predict its resistance to bending and deflection.
The concept of inertia is provided by Newton’s First law of motion. The property of matter by virtue of which it resists ant change in its state of rest or of uniform motion is called inertia.
The translatory inertia is identified as mass whereas the rotational inertia is termed as moment of inertia.
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MOMENT OF INERTIA, POLAR MOMENT OF INERTIA AND RADIUS OF GYRATION
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In other words moment of inertia is the rotational analogue of mass, i.e., it plays the role of resisting a change in rotational motion in quite the same sense as mass plays in resisting a change in translatory motion.
Moment of inertia is also defined as the second moment of area.
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Moment of inertia, polar moment of inertia and radius of gyration
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Moment of inertia, polar moment of inertia and radius of gyration
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Moment of inertia, polar moment of inertia and radius of gyration
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Moment of Inertia of Composite Planes
Ix = 6773333.3mm4
Iy = 1653333.3 mm4
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Moment of inertia, polar moment of inertia and radius of gyration
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Moment of Inertia of I-section
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Moment of inertia, polar moment of inertia and radius of gyration
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Principle of Virtual Work
The principle of virtual work states that for a system of initiallystationary rigid bodies, the algebraic summation of virtualwork done by all effective forces causing virtual displacementconsistent with geometrical conditions, will be zero.
Introduction to concept of Virtual work
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Problem: Using the method of virtual work, determine thereactions at the supports A and B of the transversely loadedbeam as shown.
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Introduction to concept of Virtual work. Principle of virtual work
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Problem: A simply supported beam with overhang on bothsides is loaded as shown in figure. Using the method of virtualwork, determine the reactions at the supports A and B.
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INTRODUCTION TO CONCEPT OF VIRTUAL WORK PRINCIPLE OF VIRTUAL WORK
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INTRODUCTION TO CONCEPT OF VIRTUAL WORK. PRINCIPLE OF VIRTUAL WORK
.
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Two blocks are placed on two smooth inclined planes as shownin figure. The string connecting the two pulleys passing througha smooth pulley is inextensible. If W1=75N and W2=65N and α= 37o , Using the method of virtual work find θ.
.
NUMERICAL EXAMPLES ON VIRTUAL WORK
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In the pulley system shown in figure 1.35kN pull is applied. Considering the loss of work in friction as 17%, what should be the mass of the block. Use virtual work method.
.
NUMERICAL EXAMPLES ON VIRTUAL WORK
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MODULE IV
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PARTICLE DYNAMICS AND INTRODUCTION TO KINETICS
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INTRODUCTION TO DYNAMICS
112
• Galileo and Newton (Galileo’s experiments led to
Newton’s laws)
• Kinematics – study of motion
• Kinetics – the study of what causes changes in motion
• Dynamics is composed of kinematics and kinetics
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RECTILINEAR MOTION OF PARTICLES
113
The average acceleration is
t
va
The units of acceleration would be m/s2, ft/s2, etc.
The instantaneous acceleration is
t
vlima
0t
dt
dv
dt
dx
dt
d 2
2
dt
xd
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DETERMINATION OF THEMOTION OF A PARTICLE
114
t
0
0 dt)t(fvdt
dx
t
0
0 dt)t(fvdt
dx
dtdt)t(fdtvdxt
0
0
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UNIFORMLY ACCELERATEDRECTILINEAR MOTION
115
When independent particles move along the same line independentequations exist for each. Then one should use the same origin and time.
Relative motion of two particles
The relative position of B with respect to A
AB xxxA
B
AB vvvA
B The relative velocity of B with respect to A
The relative acceleration of B with respect to A
ABA
Baaa
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DEPENDENT MOTIONS
116
Let’s look at the relationships.
ttanconsx2xBA
0v2vBA
0a2aBA
System has one degree of freedom since only one coordinate can be chosen independently.
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DEPENDENT MOTIONS
117
ttanconsxx2x2CBA
0vv2v2CBA
0aa2a2CBA
System has 2 degrees of freedom.
Let’s look at the relationships.
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KINEMATICS OF A PARTICLE
• Kinematics is the area of mechanics concerned with the study of motion ofparticles and rigid bodies without consideration of what has caused themotion. When we take into consideration the factors causing the motion, thearea of study is called dynamics.
• A particle has no size but has mass. This is a completely hypothetical concept.However, many times object can be approximated as particle. For example, acar is moving. Compared to distance, it travels, its size is very small and it canbe treated as particle.
• Moreover, a rigid body can be considered as a combination of small particles.Thus, the concepts learned for a particle can be helpful in understanding thekinematics of rigid body.
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KINEMATICS OF A PARTICLE
Basic Definitions:
Dynamics : Dynamics is that branch of Engineering Mechanicswhich deals with the forces acting on the rigid bodies that are inmotion.
Kinetics : Kinetics is the branch of classical mechanics that isconcerned with the relationship between motion and its causes,specifically, forces and torques
Kinematics: Kinematics is that branch of classical mechanics whichdeals with motion of rigid bodies without considering the forcescausing it.
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KINEMATICS OF A PARTICLE
Basic Definitions:
Motion: The continuous change in position of a body with respectto time and relative to the reference point or observer is calledmotion.
Rectilinear Motion : If the path followed by a point is a straightline then such motion is called rectilinear motion.
Curvilinear Motion: If the path followed by appoint is a curve thensuch motion is called a curvilinear motion
.
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KINEMATICS OF A PARTICLE
Basic Definitions: Kinematics deals with displacement,velocity and acceleration of a point of interest at a particulartime or with the passage of time.
At t1 displacement S1
At t2 displacement S2
During (t2-t1) =Δt displacement is (S2-S1)= ΔS
Displacement is dependent on time and thus S=f(t). .
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KINEMATICS OF A PARTICLE
This time dependant function may be of different types:
S = c + dt ----(1)
At t=0, S=c and rate of increment of variation is d which isconstant throughout.
S = c + dt2 ----(2)
Quadratic
S = c + de-kt ----(3)
Exponential or asymptotic relation of displacement with time.
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Velocity units would be in m/s, ft/s, etc.
The instantaneous velocity is,
For linear motion x marks the position of an object. Position units would be m, ft, etc.
Average velocity is,
xv
t
t 0
xv lim
t
dx
dt
KINEMATICS OF A PARTICLE
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The average acceleration is
t
va
• The units of acceleration would be m/s2, ft/s2, etc.
• The instantaneous acceleration is
t
vlima
0t
dt
dv
dt
dx
dt
d 2
2
dt
xd
KINEMATICS OF A PARTICLE
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dt
dva
dt
dx
dx
dv
dx
dvv
Notice If v is a function of x, then
One more derivative
dt
daJerk
KINEMATICS OF A PARTICLE
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KINEMATICS OF A PARTICLE
PROBLEMS-RECTILINEAR MOTION
The rectilinear motion of a particle is defined by thedisplacement time equation as x=x0+v0t+(1/2)at2. Find thedisplacement and velocity at time t=2s while x0=250mm,v0=125mm/s and a=0.5mm/s2.
A particle starts from rest and moves along a straight line withconstant acceleration a. If it acquires a velocity v=3 mm/s2,after having travelled a distance S=7.5m, find the magnitudeof the acceleration
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KINEMATICS OF A PARTICLE
An aeroplane is flying in horizontal direction of 540 km/hr and at a heightof 2200m as shown in figure. When it is vertically above the point A on theground, a body is dropped from it. The body strike the ground at point B.Calculate the distance AB ignoring air resistance. Also find velocity at B andtime taken to reach B
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Two masses are inter-connected with a pulley system, as shown in figure. Neglecting inertial and frictional effect of pulleys and cord, determine the acceleration of the mass m2. Take m1 = 40kg, m2 = 30kg.
KINEMATICS OF A PARTICLE
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KINETICS OF A PARTICLE:
Method of work and energy
Involves relations between displacement, velocity, mass, and force.
Method of impulse and momentum
Involves relations between mass, velocity, force, and time.
KINETICS OF PARTICLES:ENERGY AND MOMENTUM METHODS
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WORK OF A FORCE :When a force is applied to a mass and the mass moves through an incremental distance, the work done by the force is
rdFdU
dzFdyFdxFzyx
ds)(cosFrdFdU
090if0dU 090if0dU 090if0dU
)J(JoulemNorlbftUnits r
rdr
rdF
A
A’
WORK OF A FORCE
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2
1
21rdFU
To get the total work done along a path requires
2
1
t
2
1
21dsFds)(cosFU
Notice that
When using rectangular coordinates
2
1
zyx21)dzFdyFdxF(UF
rd
ds
WORK OF A FORCE
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Work of a Constant Force in Rectilinear Motion
x)(cosFU21
)xx)((cosF12
F
x1
2
WORK OF A FORCE
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)kdzjdyidx(jWdU
Work of the Force of Gravity
WdydU
2
1
21WdyU )yy(W
21
yWU21
y2
y1
y
dy
A1
A
A2W
WORK OF THE FORCE OF GRAVITY
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Work of the Force Exerted by a Spring
kxF
2
1
21kxdxU )kxkx( 2
1212
221
x1
x2
F
x
Spring undeformed
x
F
F1
F2
x1 x2
x
kxF
))(( 121221 xxxxk
WORK OF THE FORCE EXERTED BY A SPRING
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Work of a Gravitational Force
2
1
221 drr
GMmU
12 r
GMm
r
GMm
WORK OF A GRAVITATIONAL FORCE
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• Forces which do not do work (ds = 0 or cos α = 0):
• Reaction at frictionless pin supporting rotating body
• Reaction at frictionless surface when body in contact moves along surface.
• Reaction at a roller moving along its track, and
• Weight of a body when its center of gravity moves horizontally.
WORK OF A GRAVITATIONAL FORCE
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tt maF
If the force doing work is the net force then
dt
dvm
dt
ds
ds
dvm
ds
dvmv
2
1
t21 dsFU
2
1
2
1
mvdvdsds
dvmv
2
1212
221
21 mvmvU
2
21 mvT 1221 TTU 2211 TUT
KINETIC ENERGY OF A PARTICLE, PRINCIPLE OF WORK AND ENERGY
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APPLICATIONS OF THE PRINCIPLE OF WORK AND ENERGY
• Wish to determine velocity of pendulum bob at A2. Consider work & kinetic energy.
glv
vg
WWl
TUT
2
2
10
2
22
2211
• Velocity found without determining expression for acceleration and integrating.
• All quantities are scalars and can be added directly.
• Forces which do no work are eliminated from the problem.
KINETICS OF A PARTICLE
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• Principle of work and energy cannot beapplied to directly determine theacceleration of the pendulum bob.
• Calculating the tension in the cordrequires supplementing the method ofwork and energy with an application ofNewton’s second law.
• As the bob passes through A2
Wl
gl
g
WWP
l
v
g
WWP
amF nn
32
22
glv 22
KINETIC ENERGY OF A PARTICLE, PRINCIPLE OF WORK AND ENERGY
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POWER AND EFFICIENCY
Power is the rate at which work is done.
dt
dUP
dt
rdF
vF
Units – 1 hp = 550 ft lb/s and 1 Watt = 1 J/s
POWER AND EFFICIENCY
inwork
outwork
inpower
outpower
Efficiency
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POTENTIAL ENERGY
Close to the Earth
Define
2
1
21WdyU )yy(W
21
WyVg
Then2121 )()( gg VVU
g21VU
POTENTIAL ENERGY
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Not So Close to the Earth
Define
Then
2
1
221 drr
GMmU
12 r
GMm
r
GMm
2121 )()( gg VVU
g21VU
rGMm
Vg r
WR2
POTENTIAL ENERGY
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)vm(dt
dF
2
1
t
t12 dtFvmvm
21 Imp
• For a system of particles external impulses are considered only (remember Newton’s third law)
2
t
t1 vmdtFvm
2
1
PRINCIPLE OF IMPULSE AND MOMENTUM
• If no external forces act on the particle, then
12 vmvm
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PROBLEM
• Two blocks of A (200N) and B (240N) are connected as shown infigure given below. When the motion begins, the block B is 1mabove the floor. Assuming the pulley to be frictionless andweightless, determine
(i) The velocity of block A when the block B touches the floor(ii) How far the block A will move up the plane?
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MODULE V
146
MECHANICAL VIBRATIONS
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MECHANICAL VIBRATIONS
Simple Harmonic Motion
A pendulum, a mass on a spring, and many other kinds of oscillators exhibit a special kind of oscillatory motion called Simple Harmonic Motion (SHM).
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MECHANICAL VIBRATIONS
SHM occurs whenever :
There is a restoring force proportional to thedisplacement from equilibrium: F x
The potential energy is proportional to thesquare of the displacement: PE x2
The period T or frequency f = 1 / T isindependent of the amplitude of the motion.
The position x, the velocity v, and theacceleration a are all sinusoidal in time.
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MECHANICAL VIBRATIONS
SHM and circular motion
There is an exact analogy between SHM andcircular motion. Consider a particle moving withconstant speed v around the rim of a circle ofradius A.
The x-component of the position of the particlehas exactly the same mathematical form as themotion of a mass on a spring executing SHM withamplitude A.
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MECHANICAL VIBRATIONS
This same formula also describes the sinusoidal motion of a mass on a spring.
dconst
d t
t
x A cos A cos t
A
+A–A
0
v
x
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MECHANICAL VIBRATIONS
T
G-h
h2h1
+h
L
hh
mg
O
G
COMPOUND PENDULUM
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MECHANICAL VIBRATIONS
ANALYSIS AND CALCULATIONS
Plot a graph of T against d.
From the graph record a series of values of the simpleequivalent pendulum (L).
Calculate the value of g from the graph or from the formula:
T2 = 4(pi)2L/g
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TORSIONAL PENDULUM
Torsion is a type of stress, which is easier to explainfor a uniform wire or a rod when one end of the wireis fixed, and the other end is twisted about the axisof the wire by an external force.
TORSIONAL PENDULUM
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TORSIONAL PENDULUM
The external force causes deformation of the wire andappearance of counterforce in the material.
If this end is released, the internal torsion force acts torestore the initial shape and size of the wire.
This behavior is similar to the one of the released end of alinear spring with a mass attached.
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TORSIONAL PENDULUM
Attaching a mass to the twisting end of the wire, one canproduce a torsion pendulum with circular oscillation of themass in the plane perpendicular to the axis of the wire.
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TORSIONAL PENDULUM
To derive equations of rotational motion of the torsionpendulum, it would be useful to recall a resemblance ofquantities in linear and rotational motion.
We know that if initially a mass is motionless, its linearmotion is caused by force F; correspondingly, if an extendedbody does not rotate initially, its rotation is caused by torqueτ.
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TORSIONAL PENDULUM
The following relationship between the momentof inertia I of an oscillating object and the periodof oscillation T as:
(3)
2
2
TI
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TORSIONAL PENDULUM
This relationship is true for oscillation wheredamping is negligible and can be ignored.Otherwise the relationship between I and κ isgiven by
2
0
I
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DEGREE OF FREEDOM
DEGREE OF FREEDOM
The number of independent co ordinates required tocomplete the configuration of the system is called degree offreedom of the system.
Single Spring and single mass system is comes under singledegree of freedom system
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DEGREE OF FREEDOM
Free vibration of One Degree of Freedom Systems
• Free vibration of a system is vibration due to its own internal forces (free of external impressive forces).
• It is initiated by an initial deviation (an energyinput) of the system from its static equilibriumposition.
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DEGREE OF FREEDOM
Once the initial deviation (a displacement or a velocity orboth) is suddenly withdrawn, the strain energy stored in thesystem forces the system to return to its original, staticequilibrium configuration.
Due to the inertia of the system, the system will not return tothe equilibrium configuration in a straight forward way.
Instead it will oscillate about this position free vibration.
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DEGREE OF FREEDOM
Single degree of freedom system
A system experiencing free vibration oscillates at one or moreof its natural frequencies, which are properties of its massand stiffness distribution.
If there is no damping (an undamped system), the systemvibrates at the (undamped) frequency (frequencies) forever.Otherwise, it vibrates at the (damped) frequency(frequencies) and dies out gradually.
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DEGREE OF FREEDOM
Single degree of freedom system
When damping is not large, as in most cases in engineering,undamped and damped frequencies are very close.
Therefore usually no distinction is made between the two typesof frequencies.
The number of natural frequencies of a system equals to thenumber of its degrees-of-freedom. Normally, the low frequenciesare more important.
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DEGREE OF FREEDOM
When damping is not large, as in most cases in engineering,undamped and damped frequencies are very close.
Therefore usually no distinction is made between the two types offrequencies.
The number of natural frequencies of a system equals to thenumber of its degrees-of-freedom. Normally, the low frequenciesare more important.
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DEGREE OF FREEDOM
Damping always exists in materials.
This damping is called material damping, which isalways positive (dissipating energy).
However, air flow, friction and others may ‘present’negative damping.
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