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Total Tension in Tight Side is determined by measuring the force to deflect the belt a given distance per inch of pulley. Check FAQs
Tt1=Tc+(Tt2-Tc)eμθc
Tt1 - Total Tension in Tight Side?Tc - Centrifugal Tension of Belt?Tt2 - Total Tension in Slack Side?μ - Coefficient of Friction For Belt?θc - Angle of Contact?

Tension on Tight Side given Centrifugal Tension and Tension on Slack Side Example

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Here is how the Tension on Tight Side given Centrifugal Tension and Tension on Slack Side equation looks like with Values.

Here is how the Tension on Tight Side given Centrifugal Tension and Tension on Slack Side equation looks like with Units.

Here is how the Tension on Tight Side given Centrifugal Tension and Tension on Slack Side equation looks like.

34.5103Edit=12.51Edit+(23.51Edit-12.51Edit)e0.2Edit3.4658Edit
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Tension on Tight Side given Centrifugal Tension and Tension on Slack Side Solution

Follow our step by step solution on how to calculate Tension on Tight Side given Centrifugal Tension and Tension on Slack Side?

FIRST Step Consider the formula
Tt1=Tc+(Tt2-Tc)eμθc
Next Step Substitute values of Variables
Tt1=12.51N+(23.51N-12.51N)e0.23.4658rad
Next Step Prepare to Evaluate
Tt1=12.51+(23.51-12.51)e0.23.4658
Next Step Evaluate
Tt1=34.5102820294889N
LAST Step Rounding Answer
Tt1=34.5103N

Tension on Tight Side given Centrifugal Tension and Tension on Slack Side Formula Elements

Variables
Total Tension in Tight Side
Total Tension in Tight Side is determined by measuring the force to deflect the belt a given distance per inch of pulley.
Symbol: Tt1
Measurement: ForceUnit: N
Note: Value should be greater than 0.
Centrifugal Tension of Belt
Centrifugal Tension of Belt tends to stretch the belt outward, increasing the overall tension.
Symbol: Tc
Measurement: ForceUnit: N
Note: Value should be greater than 0.
Total Tension in Slack Side
Total Tension in Slack Side is determined by measuring the force to deflect the belt a given distance per inch of pulley.
Symbol: Tt2
Measurement: ForceUnit: N
Note: Value can be positive or negative.
Coefficient of Friction For Belt
Coefficient of Friction For Belt is the ratio defining the force that resists the motion of the brake pad in relation to the brake disc or drum in contact with it.
Symbol: μ
Measurement: NAUnit: Unitless
Note: Value should be greater than 0.
Angle of Contact
Angle of Contact is the angle subtended by the belt on the pulley.
Symbol: θc
Measurement: AngleUnit: rad
Note: Value should be greater than 0.

Other Formulas to find Total Tension in Tight Side

​Go Tension on Tight Side when Centrifugal Tension is Taken in Account
Tt1=T1+Tc

Other formulas in Tension category

​Go Tension in Tight Side for Transmission of Maximum Power by Belt
T1=2Pmax3
​Go Tension in Tight Side of Belt
T1=T2eμθc
​Go Tension in Tight Side of Rope Drive
T1=T2eμbθccosec(β2)
​Go Tension on Slack Side when Centrifugal Tension is Taken in Account
Tt2=T2+Tc

How to Evaluate Tension on Tight Side given Centrifugal Tension and Tension on Slack Side?

Tension on Tight Side given Centrifugal Tension and Tension on Slack Side evaluator uses Total Tension in Tight Side = Centrifugal Tension of Belt+(Total Tension in Slack Side-Centrifugal Tension of Belt)*e^(Coefficient of Friction For Belt*Angle of Contact) to evaluate the Total Tension in Tight Side, Tension on Tight Side given Centrifugal Tension and Tension on Slack Side formula is defined as the measure of the force exerted on the tight side of a belt or rope in a pulley system, taking into account the centrifugal tension and the tension on the slack side, which is crucial in determining the overall mechanical efficiency. Total Tension in Tight Side is denoted by Tt1 symbol.

How to evaluate Tension on Tight Side given Centrifugal Tension and Tension on Slack Side using this online evaluator? To use this online evaluator for Tension on Tight Side given Centrifugal Tension and Tension on Slack Side, enter Centrifugal Tension of Belt (Tc), Total Tension in Slack Side (Tt2), Coefficient of Friction For Belt (μ) & Angle of Contact c) and hit the calculate button.

FAQs on Tension on Tight Side given Centrifugal Tension and Tension on Slack Side

What is the formula to find Tension on Tight Side given Centrifugal Tension and Tension on Slack Side?
The formula of Tension on Tight Side given Centrifugal Tension and Tension on Slack Side is expressed as Total Tension in Tight Side = Centrifugal Tension of Belt+(Total Tension in Slack Side-Centrifugal Tension of Belt)*e^(Coefficient of Friction For Belt*Angle of Contact). Here is an example- 34.51028 = 12.51+(23.51-12.51)*e^(0.2*3.4658).
How to calculate Tension on Tight Side given Centrifugal Tension and Tension on Slack Side?
With Centrifugal Tension of Belt (Tc), Total Tension in Slack Side (Tt2), Coefficient of Friction For Belt (μ) & Angle of Contact c) we can find Tension on Tight Side given Centrifugal Tension and Tension on Slack Side using the formula - Total Tension in Tight Side = Centrifugal Tension of Belt+(Total Tension in Slack Side-Centrifugal Tension of Belt)*e^(Coefficient of Friction For Belt*Angle of Contact).
What are the other ways to Calculate Total Tension in Tight Side?
Here are the different ways to Calculate Total Tension in Tight Side-
  • Total Tension in Tight Side=Tension in Tight Side of Belt+Centrifugal Tension of BeltOpenImg
Can the Tension on Tight Side given Centrifugal Tension and Tension on Slack Side be negative?
Yes, the Tension on Tight Side given Centrifugal Tension and Tension on Slack Side, measured in Force can be negative.
Which unit is used to measure Tension on Tight Side given Centrifugal Tension and Tension on Slack Side?
Tension on Tight Side given Centrifugal Tension and Tension on Slack Side is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Tension on Tight Side given Centrifugal Tension and Tension on Slack Side can be measured.
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