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## Credits

Osmania University (OU), Hyderabad
Kethavath Srinath has created this Calculator and 500+ more calculators!
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## Axial Force Transmitted by the outer Spring Solution

STEP 0: Pre-Calculation Summary
Formula Used
force_transmitted_by_outer_spring = Force Transmitted by the Inner Spring*Wire Diameter of Outer Spring^2/Wire Diameter of inner Spring^2
P1 = P2*d1^2/d2^2
This formula uses 3 Variables
Variables Used
Force Transmitted by the Inner Spring - Force Transmitted by the Inner Spring is defined as the axial force transmitted by the outermost spring in the concentric springs. (Measured in Newton)
Wire Diameter of Outer Spring - Wire Diameter of Outer Spring is defined as the diameter or the thickness of the outer spring wire. (Measured in Millimeter)
Wire Diameter of inner Spring - Wire Diameter of inner Spring is defined as the diameter or the thickness of the outer spring wire. (Measured in Millimeter)
STEP 1: Convert Input(s) to Base Unit
Force Transmitted by the Inner Spring: 30 Newton --> 30 Newton No Conversion Required
Wire Diameter of Outer Spring: 50 Millimeter --> 0.05 Meter (Check conversion here)
Wire Diameter of inner Spring: 30 Millimeter --> 0.03 Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
P1 = P2*d1^2/d2^2 --> 30*0.05^2/0.03^2
Evaluating ... ...
P1 = 83.3333333333333
STEP 3: Convert Result to Output's Unit
83.3333333333333 Newton --> No Conversion Required
FINAL ANSWER
83.3333333333333 Newton <-- Force Transmitted by the Outer Spring
(Calculation completed in 00.016 seconds)

## < 10+ Concentric Springs Calculators

Wire Diameter of the Outer Spring When Axial Force Transmitted by the Outer Spring is Given
wire_diameter_of_outer_spring = sqrt(Force Transmitted by the Outer Spring*Wire Diameter of inner Spring^2/Force Transmitted by the Inner Spring) Go
Wire Diameter of the Inner Spring When Axial Force Transmitted by the Outer Spring is Given
wire_diameter_of_inner_spring = sqrt(Force Transmitted by the Inner Spring*Wire Diameter of Outer Spring^2/Force Transmitted by the Outer Spring) Go
Cross-sectional Area of Outer Spring When Axial Force Transmitted is Given
cross_sectional_area_of_outer_spring = Force Transmitted by the Outer Spring*Cross Sectional Area of Inner Spring/Force Transmitted by the Inner Spring Go
Cross-Sectional Area of Inner Spring When Axial Force Transmitted is Given
cross_sectional_area_of_inner_spring = Cross-Sectional Area of Outer Spring*Force Transmitted by the Inner Spring/Force Transmitted by the Outer Spring Go
Axial Force Transmitted by the outer Spring
force_transmitted_by_outer_spring = Force Transmitted by the Inner Spring*Wire Diameter of Outer Spring^2/Wire Diameter of inner Spring^2 Go
Axial Force Transmitted by the Inner Spring
force_transmitted_by_inner_spring = (Wire Diameter of inner Spring^2*Force Transmitted by the Outer Spring)/Wire Diameter of Outer Spring Go
Diametrical Clearance Between the Springs
clearance = (Wire Diameter of Outer Spring-Wire Diameter of inner Spring)/2 Go
Wire Diameter of the Inner Spring When Diametrical Clearance Between the Springs is Given
wire_diameter_of_inner_spring = Wire Diameter of Outer Spring-2*Clearance Go
Cross-sectional Area of the Outer Spring Wire
cross_sectional_area = pi*Wire Diameter of Outer Spring^2 Go
Cross-sectional Area of the Inner Spring Wire
cross_sectional_area = pi*Wire Diameter of inner Spring^2 Go

### Axial Force Transmitted by the outer Spring Formula

force_transmitted_by_outer_spring = Force Transmitted by the Inner Spring*Wire Diameter of Outer Spring^2/Wire Diameter of inner Spring^2
P1 = P2*d1^2/d2^2

## Define Concentric Springs?

A concentric spring consists of two helical compression springs, one inside the other, having the same axis. It is also called a 'nested' spring. Adjacent springs having opposite hands, prevent the locking of coils, in the event of axial misalignment or buckling of springs.

## How to Calculate Axial Force Transmitted by the outer Spring?

Axial Force Transmitted by the outer Spring calculator uses force_transmitted_by_outer_spring = Force Transmitted by the Inner Spring*Wire Diameter of Outer Spring^2/Wire Diameter of inner Spring^2 to calculate the Force Transmitted by the Outer Spring, The Axial Force Transmitted by the outer Spring formula is defined as the amount of force that is being transmitted through the outer spring only. Force Transmitted by the Outer Spring and is denoted by P1 symbol.

How to calculate Axial Force Transmitted by the outer Spring using this online calculator? To use this online calculator for Axial Force Transmitted by the outer Spring, enter Force Transmitted by the Inner Spring (P2), Wire Diameter of Outer Spring (d1) and Wire Diameter of inner Spring (d2) and hit the calculate button. Here is how the Axial Force Transmitted by the outer Spring calculation can be explained with given input values -> 83.33333 = 30*0.05^2/0.03^2.

### FAQ

What is Axial Force Transmitted by the outer Spring?
The Axial Force Transmitted by the outer Spring formula is defined as the amount of force that is being transmitted through the outer spring only and is represented as P1 = P2*d1^2/d2^2 or force_transmitted_by_outer_spring = Force Transmitted by the Inner Spring*Wire Diameter of Outer Spring^2/Wire Diameter of inner Spring^2. Force Transmitted by the Inner Spring is defined as the axial force transmitted by the outermost spring in the concentric springs, Wire Diameter of Outer Spring is defined as the diameter or the thickness of the outer spring wire and Wire Diameter of inner Spring is defined as the diameter or the thickness of the outer spring wire.
How to calculate Axial Force Transmitted by the outer Spring?
The Axial Force Transmitted by the outer Spring formula is defined as the amount of force that is being transmitted through the outer spring only is calculated using force_transmitted_by_outer_spring = Force Transmitted by the Inner Spring*Wire Diameter of Outer Spring^2/Wire Diameter of inner Spring^2. To calculate Axial Force Transmitted by the outer Spring, you need Force Transmitted by the Inner Spring (P2), Wire Diameter of Outer Spring (d1) and Wire Diameter of inner Spring (d2). With our tool, you need to enter the respective value for Force Transmitted by the Inner Spring, Wire Diameter of Outer Spring and Wire Diameter of inner Spring 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 Force Transmitted by the Outer Spring?
In this formula, Force Transmitted by the Outer Spring uses Force Transmitted by the Inner Spring, Wire Diameter of Outer Spring and Wire Diameter of inner Spring. We can use 10 other way(s) to calculate the same, which is/are as follows -
• force_transmitted_by_outer_spring = Force Transmitted by the Inner Spring*Wire Diameter of Outer Spring^2/Wire Diameter of inner Spring^2
• wire_diameter_of_outer_spring = sqrt(Force Transmitted by the Outer Spring*Wire Diameter of inner Spring^2/Force Transmitted by the Inner Spring)
• wire_diameter_of_inner_spring = sqrt(Force Transmitted by the Inner Spring*Wire Diameter of Outer Spring^2/Force Transmitted by the Outer Spring)
• force_transmitted_by_inner_spring = (Wire Diameter of inner Spring^2*Force Transmitted by the Outer Spring)/Wire Diameter of Outer Spring
• cross_sectional_area = pi*Wire Diameter of Outer Spring^2
• cross_sectional_area = pi*Wire Diameter of inner Spring^2
• cross_sectional_area_of_outer_spring = Force Transmitted by the Outer Spring*Cross Sectional Area of Inner Spring/Force Transmitted by the Inner Spring
• cross_sectional_area_of_inner_spring = Cross-Sectional Area of Outer Spring*Force Transmitted by the Inner Spring/Force Transmitted by the Outer Spring
• clearance = (Wire Diameter of Outer Spring-Wire Diameter of inner Spring)/2
• wire_diameter_of_inner_spring = Wire Diameter of Outer Spring-2*Clearance
Where is the Axial Force Transmitted by the outer Spring calculator used?
Among many, Axial Force Transmitted by the outer Spring calculator is widely used in real life applications like {FormulaUses}. Here are few more real life examples -
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