Calculator A to Z

Download Design of Helical Gears PDF

  1. FREE to download!
  2. Examples Included!
  3. With Live Calculator Link!
  4. Supports Unit Conversion!
  5. Mobile friendly PDFs!
Physics PDFsChemistry PDFsEngineering PDFsFinancial PDFsMath PDFs
Mechanical PDFsAerospace PDFsBasic Physics PDFs
Design of Machine Elements PDFsAutomobile PDFsDesign of Automobile Elements PDFsFluid Mechanics PDFsHeat and Mass Transfer PDFsIC Engine PDFsMaterial Science and Metallurgy PDFsMechanical Vibrations PDFsMechanics PDFsRefrigeration and Air Conditioning PDFsStrength of Materials PDFsTheory of Machine PDFsTheory of Plasticity PDFsTransportation System PDFs
Design of Gears PDFsDesign of Coupling PDFs
   Design of Helical Gears PDF
Formulas : 55
Size : 549 kb
FREE Download
Share

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 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
Lifting Machines
Formulas : 33   Size : 443 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 Design of Helical Gears PDF

List of 55 Design of Helical Gears Formulas

Actual Number of Teeth on Gear given Virtual Number of Teeth
​Go
Addendum Circle Diameter of Gear
​Go
Addendum Circle Diameter of Gear given Pitch Circle Diameter
​Go
Addendum of Gear given Addendum Circle Diameter
​Go
Angular Velocity of Gear given Speed Ratio
​Go
Angular Velocity of Pinion given Speed Ratio
​Go
Axial Pitch of Helical Gear given Helix Angle
​Go
Center to Center distance between Two Gears
​Go
Dedendum Circle Diameter of Gear given Pitch Circle Diameter
​Go
Helix Angle of Helical Gear given Actual and Virtual Number of Teeth
​Go
Helix Angle of Helical Gear given Addendum Circle Diameter
​Go
Helix Angle of Helical Gear given Axial Pitch
​Go
Helix Angle of Helical Gear given Center to Center Distance between Two Gears
​Go
Helix Angle of Helical Gear given Normal Circular Pitch
​Go
Helix Angle of Helical Gear given Normal Module
​Go
Helix Angle of Helical Gear given Pitch Circle Diameter
​Go
Helix Angle of Helical Gear given Pressure Angle
​Go
Helix Angle of Helical Gear given Radius of Curvature at Point
​Go
Helix Angle of Helical Gear given Virtual Number of Teeth
​Go
Normal Circular Pitch of Helical Gear
​Go
Normal Circular Pitch of Helical Gear given Virtual Number of Teeth
​Go
Normal Module of Helical Gear
​Go
Normal Module of Helical Gear given Addendum Circle Diameter
​Go
Normal Module of Helical Gear given Center to Center Distance between Two Gears
​Go
Normal Module of Helical Gear given Pitch Circle Diameter
​Go
Normal Module of Helical Gear given Virtual Number of Teeth
​Go
Normal Pressure Angle of Helical Gear given Helix Angle
​Go
Number of Teeth on First Gear given Center to Center Distance between Two Gears
​Go
Number of Teeth on Gear given Addendum Circle Diameter
​Go
Number of Teeth on Gear given Pitch Circle Diameter
​Go
Number of Teeth on Helical Gear given Speed Ratio for Helical Gears
​Go
Number of Teeth on Pinion given Speed Ratio
​Go
Number of Teeth on Second Helical Gear given Center to Center Distance between Two Gears
​Go
Pitch Circle Diameter of Gear given Addendum Circle Diameter
​Go
Pitch Circle Diameter of Gear given Dedendum Circle Diameter
​Go
Pitch Circle Diameter of Gear given Radius of Curvature at Point
​Go
Pitch Circle Diameter of Helical Gear
​Go
Pitch Circular Diameter of Gear given Radius of Curvature
​Go
Pitch Circular Diameter of Gear given Virtual Gear
​Go
Pitch Circular Diameter of Gear given Virtual Number of Teeth
​Go
Pitch of Helical Gear given Axial Pitch
​Go
Pitch of Helical Gear given Normal Circular Pitch
​Go
Radius of Curvature at Point on Helical Gear
​Go
Radius of Curvature at Point on Virtual Gear
​Go
Radius of Curvature of Virtual Gear given Pitch Circular Diameter
​Go
Radius of Curvature of Virtual Gear given Virtual Number of Teeth
​Go
Semi Major Axis of Elliptical Profile given Radius of Curvature at Point
​Go
Semi Minor Axis of Elliptical Profile given Radius of Curvature at Point
​Go
Speed Ratio for Helical Gears
​Go
Transverse Diametrical Pitch of Helical Gear given Transverse Module
​Go
Transverse Module of Helical Gear given Normal Module
​Go
Transverse Module of Helical Gear given Transverse Diametrical Pitch
​Go
Transverse Pressure Angle of Helical Gear given Helix Angle
​Go
Virtual Number of Teeth on Helical Gear
​Go
Virtual Number of Teeth on Helical Gear given Actual Number of Teeth
​Go

Variables used in Design of Helical Gears PDF

  1. a Semi Major Axis of Helical Gear Teeth (Millimeter)
  2. ac Center to Center Distance of Helical Gears (Millimeter)
  3. b Semi Minor Axis of Helical Gear Teeth (Millimeter)
  4. d Diameter of Pitch Circle of Helical Gear (Millimeter)
  5. d' Pitch Circular Diameter of Helical Virtual Gear (Millimeter)
  6. da Addendum Circle Diameter of Helical Gear (Millimeter)
  7. df Dedendum Circle Diameter of Helical Gear (Millimeter)
  8. dh Dedendum of Helical Gear (Millimeter)
  9. ha Addendum of Helical Gear (Millimeter)
  10. i Helical Gear Speed Ratio
  11. m Transverse Module of Helical Gear (Millimeter)
  12. mn Normal Module of Helical Gear (Millimeter)
  13. ng Speed of Helical Gear (Radian per Second)
  14. np Speed of Pinion Helical Gear (Radian per Second)
  15. p Pitch of Helical Gear (Millimeter)
  16. P Transverse Diametrical Pitch of Helical Gear (1 per Millimeter)
  17. pa Axial Pitch of Helical Gear (Millimeter)
  18. PN Normal Circular Pitch of Helical Gear (Millimeter)
  19. r' Radius of Curvature of Helical Gear (Millimeter)
  20. rvh Virtual Pitch Circle Radius for Helical Gear (Millimeter)
  21. z Number of Teeth on Helical Gear
  22. z' Virtual Number of Teeth on Helical Gear
  23. z1 Number of Teeth on 1st Helical Gear
  24. z2 Number of Teeth on 2nd Helical Gear
  25. Zp Number of Teeth on Helical Pinion
  26. α Transverse Pressure Angle of Helical Gear (Degree)
  27. αn Normal Pressure Angle of Helical Gear (Degree)
  28. ψ Helix Angle of Helical Gear (Degree)

Constants, Functions and Measurements used in Design of Helical Gears PDF

  1. Constant: pi, 3.14159265358979323846264338327950288
    Archimedes' constant
  2. Function: acos, acos(Number)
    The inverse cosine function, is the inverse function of the cosine function. It is the function that takes a ratio as an input and returns the angle whose cosine is equal to that ratio.
  3. Function: atan, atan(Number)
    Inverse tan is used to calculate the angle by applying the tangent ratio of the angle, which is the opposite side divided by the adjacent side of the right triangle.
  4. Function: cos, cos(Angle)
    Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle.
  5. Function: sqrt, sqrt(Number)
    A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.
  6. 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.
  7. Measurement: Length in Millimeter (mm)
    Length Unit Conversion
  8. Measurement: Angle in Degree (°)
    Angle Unit Conversion
  9. Measurement: Angular Velocity in Radian per Second (rad/s)
    Angular Velocity Unit Conversion
  10. Measurement: Reciprocal Length in 1 per Millimeter (mm⁻¹)
    Reciprocal Length Unit Conversion
Download Now!
Share

Free Design of Helical Gears PDF

Get Free Design of Helical Gears PDF for Download today. Examples are included after each Formula with a link to a live Calculator! All the Formulas and Calculators support Unit Conversion as well. This PDF features 55 calculators from Design of Machine Elements. Inside, you'll discover a list of formulas such as Transverse Module of Helical Gear given Transverse Diametrical Pitch, Normal Module of Helical Gear and 55 more formulas!. The Variables, Functions and Constants are summarized at the end. Explore and share Design of Helical Gears PDFs!

Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Percentage calculator Fraction calculator LCM HCF Calculator
© 2016-2024 A softusvista inc. venture!


Home Icon
Home PDF Icon
FREE PDFs
🔍 Search
Category Icon
Categories
Share Icon
Share
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!