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Transverse Diametrical Pitch When Normal Circular Pitch is Given Solution

STEP 0: Pre-Calculation Summary
Formula Used
transverse_diametrical_pitch = Circular Pitch*cos(Helix Angle)
P = Pc*cos(α)
This formula uses 1 Functions, 2 Variables
Functions Used
cos - Trigonometric cosine function, cos(Angle)
Variables Used
Circular Pitch - A circular pitch is a distance along the pitch circle or pitch line between corresponding profiles of adjacent teeth. (Measured in Meter)
Helix Angle - Helix Angle denotes the standard pitch circle unless otherwise specified. Application of the helix angle typically employs a magnitude ranging from 15° to 30° for helical gears, with 45° capping the safe operation limit. (Measured in Degree)
STEP 1: Convert Input(s) to Base Unit
Circular Pitch: 5 Meter --> 5 Meter No Conversion Required
Helix Angle: 30 Degree --> 0.5235987755982 Radian (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
P = Pc*cos(α) --> 5*cos(0.5235987755982)
Evaluating ... ...
P = 4.33012701892219
STEP 3: Convert Result to Output's Unit
4.33012701892219 Meter -->4330.12701892219 Millimeter (Check conversion here)
FINAL ANSWER
4330.12701892219 Millimeter <-- Transverse Diametrical Pitch
(Calculation completed in 00.016 seconds)

10+ Design of Helical Gears Calculators

Transverse Pressure Angle When Helix Angle is Given
transverse_pressure_angle = atan(tan(Normal Pressure Angle)/cos(Helix Angle)) Go
Normal Pressure Angle When Helix Angle is Given
normal_pressure_angle = atan(tan(Transverse Pressure Angle)*cos(Helix Angle)) Go
Transverse Diametrical Pitch When Normal Circular Pitch is Given
transverse_diametrical_pitch = Circular Pitch*cos(Helix Angle) Go
Normal Circular Pitch of Helical Gear
circular_pitch = Transverse Diametrical Pitch/cos(Helix Angle) Go
Transverse Diametrical Pitch When Axial Pitch is Given
transverse_diametrical_pitch = Axial Pitch*tan(Helix Angle) Go
Axial Pitch in terms of helix angle
axial_pitch = Transverse Diametrical Pitch/tan(Helix Angle) Go
Transverse Module When Normal Module is Given
transverse_module = Normal Module/cos(Helix Angle) Go
Normal Module
normal_module = Transverse Module*cos(Helix Angle) Go
Transverse Module When Transverse Diametrical Pitch is Given
transverse_module = 1/Transverse Diametrical Pitch Go
Transverse Diametrical Pitch in Terms of Transverse Module
transverse_diametrical_pitch = 1/Transverse Module Go

Transverse Diametrical Pitch When Normal Circular Pitch is Given Formula

transverse_diametrical_pitch = Circular Pitch*cos(Helix Angle)
P = Pc*cos(α)

Define Helical Gears ?

A helical gear has a cylindrical pitch surface and teeth that follow a helix on the pitch cylinder. External helical gears have teeth that project outwards, whereas internal helical gears have teeth that project inwards.

How to Calculate Transverse Diametrical Pitch When Normal Circular Pitch is Given?

Transverse Diametrical Pitch When Normal Circular Pitch is Given calculator uses transverse_diametrical_pitch = Circular Pitch*cos(Helix Angle) to calculate the Transverse Diametrical Pitch, The Transverse Diametrical Pitch When Normal Circular Pitch is Given formula is defined as the pitch that is present on the plane of rotation. Transverse Diametrical Pitch and is denoted by P symbol.

How to calculate Transverse Diametrical Pitch When Normal Circular Pitch is Given using this online calculator? To use this online calculator for Transverse Diametrical Pitch When Normal Circular Pitch is Given, enter Circular Pitch (Pc) and Helix Angle (α) and hit the calculate button. Here is how the Transverse Diametrical Pitch When Normal Circular Pitch is Given calculation can be explained with given input values -> 4330.127 = 5*cos(0.5235987755982).

FAQ

What is Transverse Diametrical Pitch When Normal Circular Pitch is Given?
The Transverse Diametrical Pitch When Normal Circular Pitch is Given formula is defined as the pitch that is present on the plane of rotation and is represented as P = Pc*cos(α) or transverse_diametrical_pitch = Circular Pitch*cos(Helix Angle). A circular pitch is a distance along the pitch circle or pitch line between corresponding profiles of adjacent teeth and Helix Angle denotes the standard pitch circle unless otherwise specified. Application of the helix angle typically employs a magnitude ranging from 15° to 30° for helical gears, with 45° capping the safe operation limit.
How to calculate Transverse Diametrical Pitch When Normal Circular Pitch is Given?
The Transverse Diametrical Pitch When Normal Circular Pitch is Given formula is defined as the pitch that is present on the plane of rotation is calculated using transverse_diametrical_pitch = Circular Pitch*cos(Helix Angle). To calculate Transverse Diametrical Pitch When Normal Circular Pitch is Given, you need Circular Pitch (Pc) and Helix Angle (α). With our tool, you need to enter the respective value for Circular Pitch and Helix Angle and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Transverse Diametrical Pitch?
In this formula, Transverse Diametrical Pitch uses Circular Pitch and Helix Angle. We can use 10 other way(s) to calculate the same, which is/are as follows -
  • circular_pitch = Transverse Diametrical Pitch/cos(Helix Angle)
  • transverse_diametrical_pitch = Circular Pitch*cos(Helix Angle)
  • transverse_diametrical_pitch = 1/Transverse Module
  • transverse_module = 1/Transverse Diametrical Pitch
  • normal_module = Transverse Module*cos(Helix Angle)
  • transverse_module = Normal Module/cos(Helix Angle)
  • axial_pitch = Transverse Diametrical Pitch/tan(Helix Angle)
  • transverse_diametrical_pitch = Axial Pitch*tan(Helix Angle)
  • normal_pressure_angle = atan(tan(Transverse Pressure Angle)*cos(Helix Angle))
  • transverse_pressure_angle = atan(tan(Normal Pressure Angle)/cos(Helix Angle))
Where is the Transverse Diametrical Pitch When Normal Circular Pitch is Given calculator used?
Among many, Transverse Diametrical Pitch When Normal Circular Pitch is Given calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
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