Theory Of Machines II

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Theory Of Machines II

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Mechanical Engineering
Theory Of Machines II

GYROSCOPIC MOTION

GYROSCOPIC MOTION
PROCESSIONAL ANGULAR MOTION
GYROSCOPIC COUPLE
EFFECT OF THE GYROSCOPIC COUPLE ON AN AERO PLANE
TERMS USED IN A NAVAL SHIP
EFFECT OF GYROSCOPIC COUPLE ON A NAVAL SHIP DURING STEERING
EFFECT OF GYROSCOPIC COUPLE ON A NAVAL SHIP DURING PITCHING
EFFECT OF GYROSCOPIC COUPLE ON A NAVAL SHIP DURING ROLLING
EFFECT OF THE GYROSCOPIC COUPLE AND CENTRIFUGAL COUPLE
STABILITY OF A TWO WHEEL VEHICLE TAKING A TURN (EFFECT OF GYROSCOPIC COUPLE)
STABILITY OF A TWO WHEEL VEHICLE TAKING A TURN (EFFECT OF CENTRIFUGAL COUPLE)
EFFECT OF GYROSCOPIC COUPLE ON A DISC FIXED RIGIDLY AT A CERTAIN ANGLE TO A ROTATING SHAFT
INERTIA FORCES IN RECIPROCATING PARTS
D-ALEMBERT’S PRINCIPLE
KLIEN’S CONSTRUCTION
RITTERHAUS’S CONSTRUCTION
BENNETT’S CONSTRUCTION
APPROXIMATE ANALYTICAL METHOD FOR VELOCITY OF THE PISTON
APPROXIMATE ANALYTICAL METHOD FOR ACCELERATION OF THE PISTON
FORCES ON THE RECIPROCATING PARTS OF AN ENGINE (PISTON EFFORT)
FORCES ON THE RECIPROCATING PARTS OF AN ENGINE (CONNECTING ROD)
EQUIVALENT DYNAMICAL SYSTEM
DETERMINATION OF EQUIVALENT DYNAMICAL SYSTEM OF TWO MASSES BY GRAPHICAL METHOD
FORCES ON THE RECIPROCATING PARTS OF AN ENGINE (CRANK SHAFT)
CORRECTION COUPLE TO BE APPLIED TO MAKE TWO MASS SYSTEMS DYNAMICALLY EQUIVALENT
TURNING MOMENT DIAGRAM
TURNING MOMENT DIAGRAM FOR A INTERNAL COMBUSTION ENGINE
FLUCTUATION OF ENERGY
DETERMINATION OF MAXIMUM FLUCTUATION OF ENERGY
COEFFICIENT OF FLUCTUATION OF ENERGY
FLYWHEEL
COEFFICIENT OF FLUCTUATION OF SPEED
FLYWHEEL IN PUNCHING PRESS
DIMENSIONS OF THE FLYWHEEL RIM
ENERGY STORED IN A FLYWHEEL

GOVERNOR

GOVERNORS INTRODUCTION
TYPES OF GOVERNORS
CENTRIFUGAL GOVERNORS
WATT GOVERNOR
PROELL GOVERNOR
HARTNELL GOVERNOR
HARTUNG GOVERNOR
WILSON-HARTNELL GOVERNOR
PICKERING GOVERNOR
SENSITIVENESS OF GOVERNORS
STABILITY OF GOVERNORS
HUNTING
EFFORT AND POWER OF A GOVERNOR
CONTROLLING FORCE
CONTROLLING FORCE DIAGRAM FOR PORTER GOVERNOR
CONTROLLING FORCE DIAGRAM FOR SPRING-CONTROLLED GOVERNORS
COEFFICIENT OF INSENSITIVENESS
BRAKES
TYPES OF BRAKES
SINGLE BLOCK OR SHOE BRAKE
PIVOTED BLOCK OR SHOE BRAKE
DYNAMOMETER
PRONY BRAKE DYNAMOMETER
ROPE BRAKE DYNAMOMETER
EPICYCLIC-TRAIN DYNAMOMETER
BELT TRANSMISSION DYNAMOMETER-FROUDE OR THRONEYCROFT TRANSMISSION DYNAMOMETER
TORSION DYNAMOMETER
BEVIS-GIBSON FLASH LIGHT TORSION DYNAMOMETER

CAMS

CAMS
CLASSIFICATION OF FOLLOWERS
TERMS USED IN RADIAL CAMS
MOTION OF THE FOLLOWER
DISPLACEMENT, VELOCITY AND ACCELERATION DIAGRAMS WHEN THE FOLLOWER MOVES WITH UNIFORM VELOCITY (GRAPHICAL)
DISPLACEMENT, VELOCITY AND ACCELERATION DIAGRAMS WHEN THE FOLLOWER MOVES WITH UNIFORM VELOCITY (NUMERICALLY)
DISPLACEMENT, VELOCITY AND ACCELERATION DIAGRAMS WHEN THE FOLLOWER MOVES WITH UNIFORM ACCELERATION AND RETARDATION
DISPLACEMENT, VELOCITY AND ACCELERATION DIAGRAMS WHEN THE FOLLOWER MOVES WITH CYCLOIDAL MOTION
CONSTRUCTION OF CAM PROFILE FOR A RADIAL CAM
TANGENT CAM WITH RECIPROCATING ROLLER FOLLOWER(CASES)
BALANCING OF ROTATING MASSES
BALANCING OF A SINGLE ROTATING MASS BY A SINGLE MASS ROTATING IN THE SAME PLANE
BALANCING OF A SINGLE ROTATING MASS BY TWO MASSES ROTATING IN DIFFERENT PLANES
PLANE OF THE DISTURBING MASS LIES IN BETWEEN THE PLANES
THE PLANE OF THE DISTURBING MASS LIES ON ONE END OF THE PLANES
BALANCING OF SEVERAL MASSES ROTATING IN THE SAME PLANE (ANALYTICAL METHOD)
BALANCING OF SEVERAL MASSES ROTATING IN THE SAME PLANE (GRAPHICAL METHOD)
BALANCING OF SEVERAL MASSES ROTATING IN THE SAME PLANE (SOLVED EXAMPLE)
BALANCING OF SEVERAL MASSES ROTATING IN DIFFERENT PLANES
ROTATION OF MASSES IN DIFFERENT PLANE GRAPHICALY
BALANCING OF RECIPROCATING MASSES
PRIMARY AND SECONDARY UNBALANCED FORCES OF RECIPROCATING MASSES
PARTIAL BALANCING OF UNBALANCED PRIMARY FORCE IN A RECIPROCATING ENGINE
PARTIAL BALANCING OF LOCOMOTIVES
VARIATION OF TRACTIVE FORCE
SWAYING COUPLE
HAMMER BLOW
BALANCING OF PRIMARY FORCES OF MULTI-CYLINDER IN-LINE ENGINES

MECHANICAL VIBRATION

MECHANICAL VIBRATION
TYPES OF VIBRATORY MOTION
TYPES OF FREE VIBRATIONS
NATURAL FREQUENCY OF FREE LONGITUDINAL VIBRATIONS (EQUILIBRIUM METHOD)
NATURAL FREQUENCY OF FREE LONGITUDINAL VIBRATIONS (ENERGY METHOD)
NATURAL FREQUENCY OF FREE LONGITUDINAL VIBRATIONS (RAYLEIGH’S METHOD)
NATURAL FREQUENCY OF FREE TRANSVERSE VIBRATIONS
EFFECT OF INERTIA OF THE CONSTRAINT IN LONGITUDINAL VIBRATIONS
EFFECT OF INERTIA OF THE CONSTRAINT IN TRANSVERSE VIBRATIONS
NATURAL FREQUENCY OF FREE TRANSVERSE VIBRATIONS DUE TO A POINT LOAD ACTING OVER A SIMPLY SUPPORTED SHAFT
NATURAL FREQUENCY OF FREE TRANSVERSE VIBRATIONS DUE TO UNIFORMLY DISTRIBUTED LOAD ACTING OVER A SIMPLY SUPPORTED SHAFT
NATURAL FREQUENCY OF FREE TRANSVERSE VIBRATIONS OF A SHAFT FIXED AT BOTH ENDS CARRYING A UNIFORMLY DISTRIBUTED LOAD
NATURAL FREQUENCY OF FREE TRANSVERSE VIBRATIONS FOR A SHAFT SUBJECTED TO A NUMBER OF POINT LOADS (ENERGY METHOD)
NATURAL FREQUENCY OF FREE TRANSVERSE VIBRATIONS FOR A SHAFT SUBJECTED TO A NUMBER OF POINT LOADS (DUNKERLEY’S METHOD)
CRITICAL OR WHIRLING SPEED OF A SHAFT
FREQUENCY OF FREE DAMPED VIBRATIONS (VISCOUS DAMPING)
FREQUENCY OF UNDER DAMPED FORCED VIBRATIONS (DIFFERENTIAL METHOD)
FREQUENCY OF UNDER DAMPED FORCED VIBRATIONS (GRAPHICAL METHOD)
MAGNIFICATION FACTOR OR DYNAMIC MAGNIFIER
VIBRATION ISOLATION AND TRANSMISSIBILITY
AUTOMATIC CONTROL SYSTEM
TYPES OF AUTOMATIC CONTROL SYSTEM
AUTOMATIC CONTROL SYSTEM THEORY
TRANSFER FUNCTION
TRANSFER FUNCTION FOR A SYSTEM WITH VISCOUS DAMPED OUTPUT
TRANSFER FUNCTION OF A HARTNELL GOVERNOR
OPEN/ CLOSED -LOOP TRANSFER FUNCTION