Anshika Arya
National Institute Of Technology (NIT), Hamirpur
Anshika Arya has created this Calculator and 200+ more calculators!

4 Other formulas that you can solve using the same Inputs

Output torque or resisting or load torque on the driven member
Output torque or load torque on the driven member=-(Input torque on the driving member)*(Angular speed of the driving member in rpm/Angular speed of the driven member in rpm) GO
Holding or braking or fixing torque on the fixed member
Braking or fixing torque on the fixed member=Input torque on the driving member*((Angular speed of the driving member in rpm/Angular speed of the driven member in rpm)-1) GO
Output torque or resisting or load torque on the driven member
Output torque or load torque on the driven member=-(Input torque on the driving member)*(Angular speed of the driving member/Angular speed of the driven member) GO
Holding or braking or fixing torque on the fixed member
Braking or fixing torque on the fixed member=Input torque on the driving member*((Angular speed of the driving member/Angular speed of the driven member)-1) GO

9 Other formulas that calculate the same Output

Braking torque of shoe brake if line of action of tangential force passes below fulcrum(clockwise)
Braking or fixing torque on the fixed member=(Coefficient of Friction*Radius of the wheel*Force applied at the end of the lever*Distance b/w fulcrum and end of lever)/(Distance b/w fulcrum and axis of wheel+(Coefficient of Friction*Shift in line of action of tangential force)) GO
Braking torque of shoe brake if line of action of tangential force passes above fulcrum(clockwise)
Braking or fixing torque on the fixed member=(Coefficient of Friction*Radius of the wheel*Force applied at the end of the lever*Distance b/w fulcrum and end of lever)/(Distance b/w fulcrum and axis of wheel-(Coefficient of Friction*Shift in line of action of tangential force)) GO
Braking torque for shoe brake when force applied at the end of lever is known
Braking or fixing torque on the fixed member=(Coefficient of Friction*Force applied at the end of the lever*Distance b/w fulcrum and end of lever*Radius of the wheel)/Distance b/w fulcrum and axis of wheel GO
Holding or braking or fixing torque on the fixed member
Braking or fixing torque on the fixed member=Input torque on the driving member*((Angular speed of the driving member in rpm/Angular speed of the driven member in rpm)-1) GO
Holding or braking or fixing torque on the fixed member
Braking or fixing torque on the fixed member=Input torque on the driving member*((Angular speed of the driving member/Angular speed of the driven member)-1) GO
Braking torque on the drum for simple band brake(considering thickness of band)
Braking or fixing torque on the fixed member=(Tension in the tight side of the band-Tension in the slack side of the band)*Effective radius of the drum GO
Braking torque for band and block brake(considering thickness of band)
Braking or fixing torque on the fixed member=(Tension in the tight side of the band-Tension in the slack side of the band)*Effective radius of the drum GO
Braking torque on the drum for simple band brake(neglecting thickness of band)
Braking or fixing torque on the fixed member=(Tension in the tight side of the band-Tension in the slack side of the band)*Radius of the drum GO
Braking torque for band and block brake(Neglecting thickness of band)
Braking or fixing torque on the fixed member=(Tension in the tight side of the band-Tension in the slack side of the band)*Radius of the drum GO

Holding or braking or fixing torque on the fixed member Formula

Braking or fixing torque on the fixed member=-(Input torque on the driving member+Output torque or load torque on the driven member)
More formulas
Velocity ratio of compound belt drive GO
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Train value GO
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Train value of compound gear train GO
Speed ratio of compound gear train GO
Train value of compound gear train GO
Output torque or resisting or load torque on the driven member GO
Holding or braking or fixing torque on the fixed member GO
Holding or braking or fixing torque on the fixed member GO
Output torque or resisting or load torque on the driven member GO

What is the braking torque?

Brake torque is essentially the power of the braking system. The brake caliper acts on the disc at a certain distance from the hub center, known as the effective radius. The force exerted by the caliper, multiplied by the effective radius of the system equals the brake torque.

How to Calculate Holding or braking or fixing torque on the fixed member?

Holding or braking or fixing torque on the fixed member calculator uses Braking or fixing torque on the fixed member=-(Input torque on the driving member+Output torque or load torque on the driven member) to calculate the Braking or fixing torque on the fixed member, Holding or braking or fixing torque on the fixed member is the measure of the force that can cause an object to rotate about an axis. Braking or fixing torque on the fixed member and is denoted by T3 symbol.

How to calculate Holding or braking or fixing torque on the fixed member using this online calculator? To use this online calculator for Holding or braking or fixing torque on the fixed member, enter Input torque on the driving member (T1) and Output torque or load torque on the driven member (T2) and hit the calculate button. Here is how the Holding or braking or fixing torque on the fixed member calculation can be explained with given input values -> -3300 = -(15+18).

FAQ

What is Holding or braking or fixing torque on the fixed member?
Holding or braking or fixing torque on the fixed member is the measure of the force that can cause an object to rotate about an axis and is represented as T3=-(T1+T2) or Braking or fixing torque on the fixed member=-(Input torque on the driving member+Output torque or load torque on the driven member). Input torque on the driving member is the measure of the force that can cause an object to rotate about an axis and Output torque or load torque on the driven member is the measure of the force that can cause an object to rotate about an axis.
How to calculate Holding or braking or fixing torque on the fixed member?
Holding or braking or fixing torque on the fixed member is the measure of the force that can cause an object to rotate about an axis is calculated using Braking or fixing torque on the fixed member=-(Input torque on the driving member+Output torque or load torque on the driven member). To calculate Holding or braking or fixing torque on the fixed member, you need Input torque on the driving member (T1) and Output torque or load torque on the driven member (T2). With our tool, you need to enter the respective value for Input torque on the driving member and Output torque or load torque on the driven member 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 Braking or fixing torque on the fixed member?
In this formula, Braking or fixing torque on the fixed member uses Input torque on the driving member and Output torque or load torque on the driven member. We can use 9 other way(s) to calculate the same, which is/are as follows -
  • Braking or fixing torque on the fixed member=Input torque on the driving member*((Angular speed of the driving member/Angular speed of the driven member)-1)
  • Braking or fixing torque on the fixed member=Input torque on the driving member*((Angular speed of the driving member in rpm/Angular speed of the driven member in rpm)-1)
  • Braking or fixing torque on the fixed member=(Coefficient of Friction*Radius of the wheel*Force applied at the end of the lever*Distance b/w fulcrum and end of lever)/(Distance b/w fulcrum and axis of wheel+(Coefficient of Friction*Shift in line of action of tangential force))
  • Braking or fixing torque on the fixed member=(Coefficient of Friction*Radius of the wheel*Force applied at the end of the lever*Distance b/w fulcrum and end of lever)/(Distance b/w fulcrum and axis of wheel-(Coefficient of Friction*Shift in line of action of tangential force))
  • Braking or fixing torque on the fixed member=(Coefficient of Friction*Force applied at the end of the lever*Distance b/w fulcrum and end of lever*Radius of the wheel)/Distance b/w fulcrum and axis of wheel
  • Braking or fixing torque on the fixed member=(Tension in the tight side of the band-Tension in the slack side of the band)*Radius of the drum
  • Braking or fixing torque on the fixed member=(Tension in the tight side of the band-Tension in the slack side of the band)*Effective radius of the drum
  • Braking or fixing torque on the fixed member=(Tension in the tight side of the band-Tension in the slack side of the band)*Effective radius of the drum
  • Braking or fixing torque on the fixed member=(Tension in the tight side of the band-Tension in the slack side of the band)*Radius of the drum
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