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Related PDFs (142)

Heat Transfer

Formulas : 21 Size : 385 kb

Important Formula of Connection Rod

Formulas : 14 Size : 361 kb

Important Formulas of Engine Cylinder

Formulas : 17 Size : 343 kb

Important Formulas of Engine Dynamics

Formulas : 21 Size : 435 kb

Important Formulas of Piston

Formulas : 18 Size : 348 kb

Load on Wheels in Race Cars

Formulas : 13 Size : 274 kb

Thermodynamics Factor

Formulas : 12 Size : 342 kb

Acceleration of the Follower

Formulas : 19 Size : 356 kb

Air Refrigeration

Formulas : 25 Size : 442 kb

Air Standard Cycles

Formulas : 18 Size : 373 kb

All Wheel Braking for Racing Car

Formulas : 25 Size : 443 kb

Analysis of Bar

Formulas : 15 Size : 374 kb

Angular Velocity

Formulas : 9 Size : 329 kb

Anti Geometry of Independent Suspension

Formulas : 17 Size : 325 kb

Belt Drive

Formulas : 20 Size : 399 kb

Boiling

Formulas : 13 Size : 361 kb

Bolt Loads in Gasket Joints

Formulas : 16 Size : 324 kb

Braking Torque

Formulas : 12 Size : 290 kb

Buoyancy

Formulas : 11 Size : 341 kb

Butt Welds

Formulas : 16 Size : 303 kb

Cam and Follower

Formulas : 19 Size : 362 kb

Conduction in Cylinder

Formulas : 16 Size : 355 kb

Conduction in Plane Wall

Formulas : 22 Size : 388 kb

Conduction in Sphere

Formulas : 11 Size : 317 kb

Conduction Shape Factors for Different Configurations

Formulas : 21 Size : 411 kb

Constant Pressure Theory

Formulas : 12 Size : 306 kb

Constant Wear Theory

Formulas : 13 Size : 298 kb

Cooling Loads

Formulas : 12 Size : 329 kb

Critical or Whirling Speed of Shaft

Formulas : 12 Size : 311 kb

Crystallography

Formulas : 13 Size : 278 kb

Curvilinear Motion

Formulas : 11 Size : 279 kb

Design of Bevel Gears

Formulas : 20 Size : 410 kb

Design of Clamp and Muff Coupling

Formulas : 10 Size : 0 kb

Design of Cotter Joint

Formulas : 51 Size : 543 kb

Design of Flywheel

Formulas : 21 Size : 384 kb

Design of Helical Gears

Formulas : 55 Size : 549 kb

Design of Knuckle Joint

Formulas : 45 Size : 494 kb

Design of Rigid Flange Coupling

Formulas : 14 Size : 274 kb

Design of Splines

Formulas : 9 Size : 260 kb

Design of Spur Gears

Formulas : 68 Size : 0 kb

Design of Superelevation

Formulas : 12 Size : 278 kb

Diameter of Bushed Pin Flexible Coupling Components

Formulas : 12 Size : 285 kb

Direct Strains of Diagonal

Formulas : 11 Size : 296 kb

Drag and Forces

Formulas : 11 Size : 317 kb

Driveline

Formulas : 21 Size : 440 kb

Ducts

Formulas : 29 Size : 428 kb

Dynamometer

Formulas : 19 Size : 368 kb

Effect of Inertia of Constraint in Longitudinal and Transverse Vibrations

Formulas : 12 Size : 315 kb

Elastic Packing

Formulas : 9 Size : 258 kb

Elements of Vibration

Formulas : 14 Size : 343 kb

Euler and Rankine's Theory

Formulas : 19 Size : 347 kb

Expressions For Crippling Load

Formulas : 32 Size : 416 kb

Eye

Formulas : 16 Size : 318 kb

Factors of Compressor

Formulas : 12 Size : 271 kb

Fastner Geometry

Formulas : 38 Size : 428 kb

Flanged Coupling

Formulas : 16 Size : 330 kb

Flow in Open Channels

Formulas : 19 Size : 336 kb

Flow of Liquids inside Packed Beds

Formulas : 12 Size : 295 kb

Flow Regime

Formulas : 17 Size : 389 kb

For 4 Stroke Engine

Formulas : 24 Size : 457 kb

Force

Formulas : 15 Size : 336 kb

Forces and Loads on Joint

Formulas : 11 Size : 304 kb

Forces on Steering System and Axles

Formulas : 14 Size : 368 kb

Frequency of Free Damped Vibrations

Formulas : 19 Size : 357 kb

Frequency of Under Damped Forced Vibrations

Formulas : 15 Size : 343 kb

Friction

Formulas : 28 Size : 430 kb

Friction Devices

Formulas : 26 Size : 420 kb

Front Lateral Load Transfer for Race Cars

Formulas : 9 Size : 283 kb

Fuel Injection in IC Engine

Formulas : 16 Size : 410 kb

Gear Trains

Formulas : 10 Size : 301 kb

General Principal to Dynamics

Formulas : 19 Size : 388 kb

Joint Analysis

Formulas : 8 Size : 275 kb

Joint Geometry and Dimensions

Formulas : 27 Size : 391 kb

Kinematics

Formulas : 18 Size : 347 kb

Kinematics of Flow

Formulas : 17 Size : 398 kb

Kinetics of Motion

Formulas : 25 Size : 451 kb

Length of Valley Curve

Formulas : 20 Size : 338 kb

Lift and Circulation

Formulas : 16 Size : 345 kb

Load and Strength Characteristics

Formulas : 13 Size : 313 kb

Maximum Shear Stress and Principal Stress Theory

Formulas : 17 Size : 342 kb

Maximum Velocity of the Follower

Formulas : 11 Size : 289 kb

Microscopes and Telescopes

Formulas : 21 Size : 357 kb

Mohr's Circle

Formulas : 14 Size : 324 kb

Molar Diffusion

Formulas : 17 Size : 393 kb

Motion in Bodies Connected by Strings

Formulas : 13 Size : 317 kb

Motion in Bodies Hanging by String

Formulas : 15 Size : 332 kb

Notches and Weirs

Formulas : 27 Size : 398 kb

Orifices and Mouthpieces

Formulas : 33 Size : 460 kb

Overtaking Sight Distance

Formulas : 13 Size : 283 kb

Packing

Formulas : 55 Size : 627 kb

Parallel Fillet Welds

Formulas : 15 Size : 315 kb

Pavement Materials

Formulas : 14 Size : 311 kb

Pelton Turbine

Formulas : 14 Size : 314 kb

Pin

Formulas : 13 Size : 304 kb

Principal Stresses

Formulas : 22 Size : 387 kb

Projectile Motion

Formulas : 10 Size : 287 kb

Projectile Motion

Formulas : 14 Size : 312 kb

Properties of Planes and Solids

Formulas : 49 Size : 602 kb

Psychrometry

Formulas : 62 Size : 542 kb

Rates for Axle Suspension in Race Car

Formulas : 10 Size : 274 kb

Rayleigh and Reynolds Number

Formulas : 16 Size : 370 kb

Rayleigh’s Method

Formulas : 15 Size : 344 kb

Rear Wheel Braking for Racing Car

Formulas : 19 Size : 343 kb

Relationship between Stress and Strain

Formulas : 19 Size : 363 kb

Retaining Rings and Circlips

Formulas : 18 Size : 334 kb

Ride Rate and Ride Frequency for Race Cars

Formulas : 12 Size : 292 kb

Rivet Dimensions

Formulas : 16 Size : 317 kb

Riveted Joints

Formulas : 36 Size : 455 kb

Seals

Formulas : 36 Size : 514 kb

Section Modulus for Various Beams or Shape Sections

Formulas : 21 Size : 351 kb

Shaft Design on Strength Basis

Formulas : 16 Size : 329 kb

Shear Stress in Circular Section

Formulas : 19 Size : 348 kb

Shear Stress in I Section

Formulas : 33 Size : 416 kb

Shear Stress in Rectangular Section

Formulas : 10 Size : 278 kb

Simple Harmonic Motion

Formulas : 22 Size : 424 kb

Steady State Heat Conduction with Heat Generation

Formulas : 14 Size : 338 kb

Steering System

Formulas : 19 Size : 421 kb

Stopping Sight Distance

Formulas : 12 Size : 287 kb

Strength and Stress

Formulas : 13 Size : 327 kb

Structural Response and Force Analysis

Formulas : 17 Size : 339 kb

Suspension Geometry

Formulas : 24 Size : 395 kb

Thermal Stress

Formulas : 18 Size : 374 kb

Threaded Bolted Joints

Formulas : 34 Size : 451 kb

Tire Behavior in Racing Car

Formulas : 44 Size : 490 kb

Tire Rolling and Slipping

Formulas : 16 Size : 382 kb

Torque Transmitted by a Hollow Circular Shaft

Formulas : 16 Size : 324 kb

Torsion of Bars

Formulas : 13 Size : 325 kb

Torsion of Coil Spring

Formulas : 11 Size : 296 kb

Torsion of Leaf Spring

Formulas : 39 Size : 447 kb

Torsional Vibrations

Formulas : 29 Size : 449 kb

Transient Heat Conduction

Formulas : 13 Size : 341 kb

Transverse Fillet Weld

Formulas : 16 Size : 319 kb

Tribology

Formulas : 13 Size : 322 kb

Turbulent Flow

Formulas : 18 Size : 343 kb

Turning Dynamics

Formulas : 17 Size : 312 kb

Types of Stresses

Formulas : 14 Size : 318 kb

V Ring Packing

Formulas : 24 Size : 392 kb

Vehicle Collision

Formulas : 29 Size : 415 kb

Velocity Ratio

Formulas : 10 Size : 285 kb

Vibration Isolation and Transmissibility

Formulas : 18 Size : 343 kb

Wheel Centre Rates for Independent Suspension

Formulas : 12 Size : 333 kb

Wheel Parameters

Formulas : 19 Size : 391 kb

Contents of the Lifting Machines PDF

List of 33 Lifting Machines Formulas

Efficiency of Differential Screw Jack

Efficiency of Geared Pulley Block

Efficiency of Machine given Mechanical Advantage and Velocity Ratio

Efficiency of Screw Jack

Efficiency of Weston's Differential Pulley Block

Efficiency of Worm and Worm Wheel

Efficiency of Worm Geared Pulley Block

Efficiency of Worm Geared Screw Jack

Effort Required by Machine to Overcome Resistance to Get Work Done

Frictional Effort Lost

Ideal Effort given Load and Velocity Ratio

Ideal Load given Velocity Ratio and Effort

Load Lifted given Effort and Mechanical Advantage

Mechanical Advantage given Load and Effort

Net Shortening of Chain in Weston's Differential Pulley Block

Net Shortening of String in Worm Gear Pulley Block

Torque Required while Load is Ascending in Screw Jack

Torque Required while Load is Descending in Screw Jack

Useful Work Output of Machine

Velocity Ratio given Distance Moved due to Effort and Distance Moved due to Load

Velocity Ratio in Weston's Differential Pulley Block

Velocity Ratio in Weston's Differential Pulley given Number of Teeth

Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys

Velocity Ratio of Differential Screw Jack

Velocity Ratio of Simple Screw Jack

Velocity Ratio of Worm and Worm Wheel

Velocity Ratio of Worm and Worm Wheel, if Worm has Multiple Threads

Velocity Ratio of Worm and Worm Wheel, if Worm is Double Threaded

Velocity Ratio of Worm Geared Pulley Block

Velocity Ratio of Worm Geared Screw Jack

Velocity Ratio of Worm Geared Screw Jack with Double Threaded

Velocity Ratio of Worm Geared Screw Jack with Multiple Threads

Work Done by Effort

Variables used in Lifting Machines PDF

D_e Distance Moved Due to Effort (Meter)
d_l Diameter of Larger Pulley (Meter)
D_l Distance Moved Due to Load (Meter)
d_m Mean Diameter of Screw (Meter)
D_m Minimum Diameter of Effort Wheel (Meter)
d_s Diameter of Smaller Pulley (Meter)
d_w Diameter of Effort Wheel (Meter)
F_e Frictional Effort Lost (Newton)
l Length of Lever Arm (Meter)
L_c Net Shortening of Chain (Meter)
L_s Net Shortening of String (Meter)
M_a Mechanical Advantage
n Number of Threads
P Effort (Newton)
p_a Pitch of Screw A (Meter)
p_b Pitch of Screw B (Meter)
P_o Ideal Effort (Newton)
P_s Pitch (Meter)
R Radius of Pulley (Meter)
r₁ Radius of Larger Pulley (Meter)
r₂ Radius of Smaller Pulley (Meter)
R_d Radius of Load Drum (Meter)
R_w Radius of Effort Wheel (Meter)
T₁ Number of Teeth of Larger Pulley
T₂ Number of Teeth of Smaller Pulley
T_asc Torque Required While Load is Ascending (Newton Meter)
T_des Torque Required While Load is Descending (Newton Meter)
T_s Number of Teeth in Screw Shaft
T_w Number of Teeth on Worm Wheel
V_i Velocity Ratio
W Load (Newton)
W_i Ideal Load (Newton)
W_l Work Done (Joule)
η Efficiency
θ Angle of Friction (Degree)
Φ Limiting Angle of Friction (Degree)
ψ Helix Angle (Degree)

Constants, Functions and Measurements used in Lifting Machines PDF

Constant: pi, 3.14159265358979323846264338327950288
Archimedes' constant
Function: tan, tan(Angle)
The tangent of an angle is a trigonometric ratio of the length of the side opposite an angle to the length of the side adjacent to an angle in a right triangle.
Measurement: Length in Meter (m)
Length Unit Conversion
Measurement: Energy in Joule (J)
Energy Unit Conversion
Measurement: Force in Newton (N)
Force Unit Conversion
Measurement: Angle in Degree (°)
Angle Unit Conversion
Measurement: Torque in Newton Meter (N*m)
Torque Unit Conversion

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