Theory Of Machines II
GYROSCOPIC MOTION
GOVERNOR
CAMS
MECHANICAL VIBRATION
- 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
- 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
- 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
- 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