Kethavath Srinath
Osmania University (OU), Hyderabad
Kethavath Srinath has created this Calculator and 400+ more calculators!
Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
Urvi Rathod has verified this Calculator and 500+ more calculators!

11 Other formulas that you can solve using the same Inputs

Effort applied parallel to inclined plane to move the body in downward direction considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*(sin(Angle of inclination of the plane to the horizontal)-(Coefficient of Friction*cos(Angle of inclination of the plane to the horizontal))) GO
Effort applied parallel to inclined plane to move the body in upward direction considering friction
Effort required to move a body on inclined surface considering friction=Weight of body on which frictional force is applied*(sin(Angle of inclination of the plane to the horizontal)+(Coefficient of Friction*cos(Angle of inclination of the plane to the horizontal))) GO
Brinell Hardness Number
Brinell Hardness Number=Force/((0.5*pi*Diameter of the ball indentor)*(Diameter of the ball indentor-((Diameter of the ball indentor^2)-(Diameter of indentation^2))^0.5)) GO
Force required to lower the load by a screw jack when weight of load, helix angle and coefficient of friction is known
Force=Weight of Load*((Coefficient of Friction*cos(Helix Angle))-sin(Helix Angle))/(cos(Helix Angle)+(Coefficient of Friction*sin(Helix Angle))) GO
Force at circumference of the screw when weight of load, helix angle and coefficient of friction is known
Force=Weight*((sin(Helix Angle)+(Coefficient of Friction*cos(Helix Angle)))/(cos(Helix Angle)-(Coefficient of Friction*sin(Helix Angle)))) GO
Total frictional torque on conical pivot bearing considering uniform pressure
Torque=2*Coefficient of Friction*Load transmitted over the bearing surface*Radius of the shaft*cosec(Semi angle of cone)/3 GO
Total frictional torque on conical pivot bearing considering uniform pressure when slant height of cone is given
Torque=2*Coefficient of Friction*Load transmitted over the bearing surface*Radius of the shaft*Slant Height/3 GO
Total frictional torque on flat pivot bearing considering uniform pressure
Torque=2*Coefficient of Friction*Load transmitted over the bearing surface*Radius of bearing surface/3 GO
Total frictional torque on flat pivot bearing considering uniform wear
Torque=Coefficient of Friction*Load transmitted over the bearing surface*Radius of bearing surface/2 GO
Roll Separating Force
Roll Separating Force =Length*Width*(1+Coefficient of Friction*Length/2*Height) GO
Engineering stress
Engineering stress=Force/Original cross sectional area GO

11 Other formulas that calculate the same Output

Helix Angle When Torque Required in Lifting a Load With Acme Screw Thread is Given
Helix Angle=atan((2*Torque-Force*Mean diameter of screw*Coefficient of Friction*sec(14.5*pi/180))/(Force*Mean diameter of screw+2*Torque*Coefficient of Friction*sec(14.5*pi/180))) GO
Helix Angle When Torque Required in Lifting a Load With Trapezoidal Screw Thread is Given
Helix Angle=atan((2*Torque-Force*Mean diameter of screw*Coefficient of Friction*sec(15*pi/180))/(Force*Mean diameter of screw+2*Torque*Coefficient of Friction*sec(15*pi/180))) GO
Helix Angle When Torque Required in Lowering a Load is Given
Helix Angle=atan((Coefficient of Friction*Force*Mean diameter of screw-(2*Torque))/(2*Torque*Coefficient of Friction+(Force*Mean diameter of screw))) GO
Helix angle When Torque is Given
Helix Angle=atan((2*Torque-Force*Mean diameter of screw*Coefficient of Friction)/(2*Torque*Coefficient of Friction+Force*Mean diameter of screw)) GO
Helix Angle When Effort Required in Lifting a Load with Trapezoidal Screw Thread is Given
Helix Angle=atan((Effort-Force*Coefficient of Friction*sec(15*pi/180))/(Force+(Effort*Coefficient of Friction*sec(15*pi/180)))) GO
Helix Angle When Effort Required in Lowering load is Given
Helix Angle=atan((Force*Coefficient of Friction-Effort)/(Coefficient of Friction*Effort+Force)) GO
Helix angle When Effort is Given
Helix Angle=atan((Effort-Force*Coefficient of Friction)/(Effort*Coefficient of Friction+Force)) GO
Helix Angle for multi-threaded screw
Helix Angle=atan((Number of Threads*Pitch)/(pi*Mean diameter of Screw)) GO
Helix Angle of Thread
Helix Angle=atan(Lead of Screw/(pi*Mean diameter of screw)) GO
Helix Angle
Helix Angle=atan(Lead of Screw/Circumference of Screw) GO
Helix Angle for single threaded screw
Helix Angle=atan(Pitch/(pi*Mean diameter of Screw)) GO

Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given Formula

Helix Angle=atan((Effort-Force*Coefficient of Friction*sec(14.5*pi/180))/(Force+Effort*Coefficient of Friction*sec(14.5*pi/180)))
α=atan((P-F*μ*sec(14.5*pi/180))/(F+P*μ*sec(14.5*pi/180)))
More formulas
Helix Angle When Torque Required in Lifting a Load With Acme Screw Thread is Given GO
Coefficient of Friction When Torque Required in Lifting a Load with Acme Tread is Given GO
Load When Torque Required in Lifting a Load with Acme Screw Thread is Given GO
Torque Required in Lifting a Load With Acme Screw Thread GO
Coefficient of Friction When Effort is Given GO
Load When Effort Required in Lifting a Load with Acme Screw Thread is Given GO
Effort Required in Lifting a Load with Acme Thread GO
Helix Angle When Torque Required in Lowering a Load is Given GO
Coefficient of Friction When Torque Required in Lowering a Load is Given GO
Mean Diameter of Screw When Torque Required in Lowering a Load is Given GO
Load When Torque Required in Lowering a Load is Given GO
Helix Angle When Effort Required in Lowering a Load is Given GO
Coefficient of Friction When Effort in Lowering a Load is Given GO
Load When Effort Required in Lowering a Load is Given GO
Effort Required in Lowering a Load GO
Torque Required in Lowering a Load GO
Efficiency of Acme Threaded Screw GO
Coefficient of Friction When Efficiency of a Trapezoidal Threaded Screw is Given GO

Define Helix Angle?

The helix angle is defined as the angle made by the helix of the thread with a plane perpendicular to the axis of the screw. The helix angle is related to the lead and the mean diameter of the screw. It is also called lead angle. The helix angle is denoted by a.

How to Calculate Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given?

Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given calculator uses Helix Angle=atan((Effort-Force*Coefficient of Friction*sec(14.5*pi/180))/(Force+Effort*Coefficient of Friction*sec(14.5*pi/180))) to calculate the Helix Angle, The Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given formula is defined as the angle made by the helix of the thread with a plane perpendicular to the axis of the screw. Helix Angle and is denoted by α symbol.

How to calculate Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given using this online calculator? To use this online calculator for Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given, enter Effort (P), Force (F) and Coefficient of Friction (μ) and hit the calculate button. Here is how the Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given calculation can be explained with given input values -> -4.603384 = atan((124-1000*0.2*sec(14.5*pi/180))/(1000+124*0.2*sec(14.5*pi/180))).

FAQ

What is Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given?
The Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given formula is defined as the angle made by the helix of the thread with a plane perpendicular to the axis of the screw and is represented as α=atan((P-F*μ*sec(14.5*pi/180))/(F+P*μ*sec(14.5*pi/180))) or Helix Angle=atan((Effort-Force*Coefficient of Friction*sec(14.5*pi/180))/(Force+Effort*Coefficient of Friction*sec(14.5*pi/180))). Effort is the force required to overcome the resistance to get the work done by the machine. , Force is the instantaneous load applied perpendicular to the specimen cross section and The Coefficient of Friction (μ) is the ratio defining the force that resists the motion of one body in relation to another body in contact with it. This ratio is dependent on material properties and most materials have a value between 0 and 1. .
How to calculate Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given?
The Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given formula is defined as the angle made by the helix of the thread with a plane perpendicular to the axis of the screw is calculated using Helix Angle=atan((Effort-Force*Coefficient of Friction*sec(14.5*pi/180))/(Force+Effort*Coefficient of Friction*sec(14.5*pi/180))). To calculate Helix Angle When Effort Required in Lifting a Load with Acme Screw Thread is Given, you need Effort (P), Force (F) and Coefficient of Friction (μ). With our tool, you need to enter the respective value for Effort, Force and Coefficient of Friction 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 Helix Angle?
In this formula, Helix Angle uses Effort, Force and Coefficient of Friction. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Helix Angle=atan(Lead of Screw/Circumference of Screw)
  • Helix Angle=atan(Pitch/(pi*Mean diameter of Screw))
  • Helix Angle=atan((Number of Threads*Pitch)/(pi*Mean diameter of Screw))
  • Helix Angle=atan(Lead of Screw/(pi*Mean diameter of screw))
  • Helix Angle=atan((Effort-Force*Coefficient of Friction)/(Effort*Coefficient of Friction+Force))
  • Helix Angle=atan((2*Torque-Force*Mean diameter of screw*Coefficient of Friction)/(2*Torque*Coefficient of Friction+Force*Mean diameter of screw))
  • Helix Angle=atan((Force*Coefficient of Friction-Effort)/(Coefficient of Friction*Effort+Force))
  • Helix Angle=atan((Coefficient of Friction*Force*Mean diameter of screw-(2*Torque))/(2*Torque*Coefficient of Friction+(Force*Mean diameter of screw)))
  • Helix Angle=atan((Effort-Force*Coefficient of Friction*sec(15*pi/180))/(Force+(Effort*Coefficient of Friction*sec(15*pi/180))))
  • Helix Angle=atan((2*Torque-Force*Mean diameter of screw*Coefficient of Friction*sec(15*pi/180))/(Force*Mean diameter of screw+2*Torque*Coefficient of Friction*sec(15*pi/180)))
  • Helix Angle=atan((2*Torque-Force*Mean diameter of screw*Coefficient of Friction*sec(14.5*pi/180))/(Force*Mean diameter of screw+2*Torque*Coefficient of Friction*sec(14.5*pi/180)))
Share Image
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!