Belt Tension in Loose Side of Belt given Initial Tension in Belt Solution

STEP 0: Pre-Calculation Summary
Formula Used
Belt Tension on Loose Side = 2*Initial Tension in Belt-Belt Tension on Tight Side
P2 = 2*Pi-P1
This formula uses 3 Variables
Variables Used
Belt Tension on Loose Side - (Measured in Newton) - Belt Tension on Loose Side is defined as the belt's tension on the belt's loose side.
Initial Tension in Belt - (Measured in Newton) - Initial Tension in Belt is defined as the tension given to the belt drive at the beginning.
Belt Tension on Tight Side - (Measured in Newton) - Belt Tension on Tight Side is defined as the belt's tension on the belt's tight side.
STEP 1: Convert Input(s) to Base Unit
Initial Tension in Belt: 675 Newton --> 675 Newton No Conversion Required
Belt Tension on Tight Side: 800 Newton --> 800 Newton No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
P2 = 2*Pi-P1 --> 2*675-800
Evaluating ... ...
P2 = 550
STEP 3: Convert Result to Output's Unit
550 Newton --> No Conversion Required
FINAL ANSWER
550 Newton <-- Belt Tension on Loose Side
(Calculation completed in 00.004 seconds)

Credits

Created by Kethavath Srinath
Osmania University (OU), Hyderabad
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Verified by Urvi Rathod
Vishwakarma Government Engineering College (VGEC), Ahmedabad
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21 Maximum Power Conditions Calculators

Optimum Velocity of Belt for Maximum Power Transmission
Go Optimum Velocity of Belt = sqrt(Initial Tension in Belt/(3*Mass of Meter Length of Belt))
Belt Velocity given Tension in Belt Due to Centrifugal Force
Go Belt Velocity = sqrt(Belt Tension due to Centrifugal Force/Mass of Meter Length of Belt)
Velocity of Belt for Maximum Power Transmission given Maximum Permissible tensile Stress
Go Optimum Velocity of Belt = sqrt(Maximum Tension in Belt/3*Mass of Meter Length of Belt)
Maximum Permissible Tensile Stress of Belt Material
Go Tensile Stress in Belt = Maximum Tension in Belt/(Width of Belt*Thickness of Belt)
Thickness of Belt given Maximum Belt Tension
Go Thickness of Belt = Maximum Tension in Belt/(Tensile Stress in Belt*Width of Belt)
Width of Belt given Maximum Belt Tension
Go Width of Belt = Maximum Tension in Belt/(Tensile Stress in Belt*Thickness of Belt)
Maximum Belt Tension
Go Maximum Tension in Belt = Tensile Stress in Belt*Width of Belt*Thickness of Belt
Mass of One Meter Length of Belt given Maximum Permissible Tensile Stress of Belt
Go Mass of Meter Length of Belt = Maximum Tension in Belt/(3*Optimum Velocity of Belt^2)
Mass of One Meter Length of Belt given Tension in Belt Due to Centrifugal Force
Go Mass of Meter Length of Belt = Belt Tension due to Centrifugal Force/Belt Velocity^2
Tension in Belt Due to Centrifugal Force
Go Belt Tension due to Centrifugal Force = Mass of Meter Length of Belt*Belt Velocity^2
Mass of One Meter Length of Belt given Velocity for Maximum Power Transmission
Go Mass of Meter Length of Belt = Initial Tension in Belt/3*Optimum Velocity of Belt^2
Initial Tension in Belt given Velocity of Belt for Maximum Power Transmission
Go Initial Tension in Belt = 3*Mass of Meter Length of Belt*Optimum Velocity of Belt^2
Initial Tension in Belt Drive
Go Initial Tension in Belt = (Belt Tension on Tight Side+Belt Tension on Loose Side)/2
Belt Tension in Tight Side of Belt given Initial Tension in Belt
Go Belt Tension on Tight Side = 2*Initial Tension in Belt-Belt Tension on Loose Side
Belt Tension in Loose Side of Belt given Initial Tension in Belt
Go Belt Tension on Loose Side = 2*Initial Tension in Belt-Belt Tension on Tight Side
Load Correction Factor given Power Transmitted by Flat Belt for Design Purpose
Go Load Correction Factor = Design Power of Belt Drive/Power transmitted by belt
Actual Power Transmitted given Power Transmitted by Flat for Design Purpose
Go Power transmitted by belt = Design Power of Belt Drive/Load Correction Factor
Power Transmitted by Flat Belt for Design Purpose
Go Design Power of Belt Drive = Power transmitted by belt*Load Correction Factor
Belt Tension in Tight Side of Belt given Tension due to Centrifugal Force
Go Belt Tension on Tight Side = 2*Belt Tension due to Centrifugal Force
Tension in Belt Due to Centrifugal Force given Permissible Tensile Stress of Belt Material
Go Belt Tension due to Centrifugal Force = Maximum Tension in Belt/3
Maximum Belt Tension given Tension Due to Centrifugal Force
Go Maximum Tension in Belt = 3*Belt Tension due to Centrifugal Force

Belt Tension in Loose Side of Belt given Initial Tension in Belt Formula

Belt Tension on Loose Side = 2*Initial Tension in Belt-Belt Tension on Tight Side
P2 = 2*Pi-P1

Types of Belt Drives?

There are five different kinds of belt drive that can be found and those are:
Open belt drive.
Closed or crossed belt drive.
Fast and loose cone pulley.
Stepped cone pulley.
Jockey pulley drive.

How to Calculate Belt Tension in Loose Side of Belt given Initial Tension in Belt?

Belt Tension in Loose Side of Belt given Initial Tension in Belt calculator uses Belt Tension on Loose Side = 2*Initial Tension in Belt-Belt Tension on Tight Side to calculate the Belt Tension on Loose Side, The Belt Tension in Loose Side of Belt given Initial Tension in Belt formula is defined as tension force present in loose side of belt. Belt Tension on Loose Side is denoted by P2 symbol.

How to calculate Belt Tension in Loose Side of Belt given Initial Tension in Belt using this online calculator? To use this online calculator for Belt Tension in Loose Side of Belt given Initial Tension in Belt, enter Initial Tension in Belt (Pi) & Belt Tension on Tight Side (P1) and hit the calculate button. Here is how the Belt Tension in Loose Side of Belt given Initial Tension in Belt calculation can be explained with given input values -> 550 = 2*675-800.

FAQ

What is Belt Tension in Loose Side of Belt given Initial Tension in Belt?
The Belt Tension in Loose Side of Belt given Initial Tension in Belt formula is defined as tension force present in loose side of belt and is represented as P2 = 2*Pi-P1 or Belt Tension on Loose Side = 2*Initial Tension in Belt-Belt Tension on Tight Side. Initial Tension in Belt is defined as the tension given to the belt drive at the beginning & Belt Tension on Tight Side is defined as the belt's tension on the belt's tight side.
How to calculate Belt Tension in Loose Side of Belt given Initial Tension in Belt?
The Belt Tension in Loose Side of Belt given Initial Tension in Belt formula is defined as tension force present in loose side of belt is calculated using Belt Tension on Loose Side = 2*Initial Tension in Belt-Belt Tension on Tight Side. To calculate Belt Tension in Loose Side of Belt given Initial Tension in Belt, you need Initial Tension in Belt (Pi) & Belt Tension on Tight Side (P1). With our tool, you need to enter the respective value for Initial Tension in Belt & Belt Tension on Tight Side and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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