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Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration Calculator

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Force on Push Rod is defined as the force (a push or pull on the pushrod resulting from its interaction with another part) that is acting onto the pushrod.Force on Push Rod [P]
+10%
-10%
Constant used in buckling load formula is a constant used in the calculation of critical buckling load in a member.Constant used in Buckling Load Formula [a]
+10%
-10%
Length of Push Rod is the size of the push rod from one end to another end (how long the rod is).Length of Push Rod [l]
+10%
-10%
Radius of Gyration of Push Rod is defined as the radial distance to a point that would have a moment of inertia the same as the rod's actual distribution of mass.Radius of Gyration of Push Rod [kG]
+10%
-10%
Stress in Push Rod is defined as the force per unit area within the push rod material that arises due to the externally applied forces onto it.Stress in Push Rod [σc]
+10%
-10%
Cross Sectional Area of Push Rod is the area of the section of the pushrod when it is along perpendicular to its length.Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration [Arod]
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Formula

Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration

Formula
`"A"_{"rod"} = ("P"*(1+"a"*("l"/"k"_{"G"})^2))/"σ"_{"c"}`

Example
`"40.21542mm²"=("450N"*(1+"0.000133"*("70mm"/"3mm")^2))/"12N/mm²"`

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Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration Solution

STEP 0: Pre-Calculation Summary
Formula Used
Cross Sectional Area of Push Rod = (Force on Push Rod*(1+Constant used in Buckling Load Formula*(Length of Push Rod/Radius of Gyration of Push Rod)^2))/Stress in Push Rod
Arod = (P*(1+a*(l/kG)^2))/σc
This formula uses 6 Variables
Variables Used
Cross Sectional Area of Push Rod - (Measured in Square Meter) - Cross Sectional Area of Push Rod is the area of the section of the pushrod when it is along perpendicular to its length.
Force on Push Rod - (Measured in Newton) - Force on Push Rod is defined as the force (a push or pull on the pushrod resulting from its interaction with another part) that is acting onto the pushrod.
Constant used in Buckling Load Formula - Constant used in buckling load formula is a constant used in the calculation of critical buckling load in a member.
Length of Push Rod - (Measured in Meter) - Length of Push Rod is the size of the push rod from one end to another end (how long the rod is).
Radius of Gyration of Push Rod - (Measured in Meter) - Radius of Gyration of Push Rod is defined as the radial distance to a point that would have a moment of inertia the same as the rod's actual distribution of mass.
Stress in Push Rod - (Measured in Pascal) - Stress in Push Rod is defined as the force per unit area within the push rod material that arises due to the externally applied forces onto it.
STEP 1: Convert Input(s) to Base Unit
Force on Push Rod: 450 Newton --> 450 Newton No Conversion Required
Constant used in Buckling Load Formula: 0.000133 --> No Conversion Required
Length of Push Rod: 70 Millimeter --> 0.07 Meter (Check conversion here)
Radius of Gyration of Push Rod: 3 Millimeter --> 0.003 Meter (Check conversion here)
Stress in Push Rod: 12 Newton per Square Millimeter --> 12000000 Pascal (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Arod = (P*(1+a*(l/kG)^2))/σc --> (450*(1+0.000133*(0.07/0.003)^2))/12000000
Evaluating ... ...
Arod = 4.02154166666667E-05
STEP 3: Convert Result to Output's Unit
4.02154166666667E-05 Square Meter -->40.2154166666667 Square Millimeter (Check conversion here)
FINAL ANSWER
40.2154166666667 40.21542 Square Millimeter <-- Cross Sectional Area of Push Rod
(Calculation completed in 00.020 seconds)
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Home » Physics » IC Engine » Design of IC Engine Components » Push Rod » Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration

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Created by Saurabh Patil
Shri Govindram Seksaria Institute of Technology and Science (SGSITS ), Indore
Saurabh Patil has created this Calculator and 700+ more calculators!
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National Institute Of Technology (NIT), Hamirpur
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16 Push Rod Calculators

Force Acting on Engine Push Rod given its Dimensions and Stress Generated
Go Force on Push Rod = (Stress in Push Rod*pi/4*(Outer Diameter of Push Rod^2-Inner Diameter of Push Rod^2))/(1+Constant used in Buckling Load Formula*((Length of Push Rod^2)/((Outer Diameter of Push Rod^2+Inner Diameter of Push Rod^2)/16)))
Radius of Gyration of Engine Push Rod given Stress, Force and Cross Section Area
Go Radius of Gyration of Push Rod = sqrt(((Length of Push Rod^2)*Constant used in Buckling Load Formula)/(((Stress in Push Rod*Cross Sectional Area of Push Rod)/Force on Push Rod)-1))
Actual Length of Engine Push Rod
Go Length of Push Rod = sqrt(Radius of Gyration of Push Rod^2/Constant used in Buckling Load Formula*((Stress in Push Rod*Cross Sectional Area of Push Rod)/Force on Push Rod-1))
Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration
Go Cross Sectional Area of Push Rod = (Force on Push Rod*(1+Constant used in Buckling Load Formula*(Length of Push Rod/Radius of Gyration of Push Rod)^2))/Stress in Push Rod
Compressive Stress in Engine Push Rod
Go Stress in Push Rod = (Force on Push Rod*(1+Constant used in Buckling Load Formula*(Length of Push Rod/Radius of Gyration of Push Rod)^2))/Cross Sectional Area of Push Rod
Force Acting on Engine Push Rod
Go Force on Push Rod = (Stress in Push Rod*Cross Sectional Area of Push Rod)/(1+Constant used in Buckling Load Formula*(Length of Push Rod/Radius of Gyration of Push Rod)^2)
Force Acting on Engine Push Rod Made of Steel
Go Force on Push Rod = (Stress in Push Rod*Cross Sectional Area of Push Rod)/(1+1/7500*(Length of Push Rod/Radius of Gyration of Push Rod)^2)
Moment of Inertia of Cross Section of Engine Push Rod
Go Area Moment of Inertia of Push Rod = pi/64*(Outer Diameter of Push Rod^4-Inner Diameter of Push Rod^4)
Radius of Gyration of Cross Section of Engine Push Rod
Go Radius of Gyration of Push Rod = sqrt((Outer Diameter of Push Rod^2+Inner Diameter of Push Rod^2)/16)
Area of Cross Section of Engine Push Rod
Go Cross Sectional Area of Push Rod = pi/4*(Outer Diameter of Push Rod^2-Inner Diameter of Push Rod^2)
Outer Diameter of Engine Push Rod given Radius of Gyration
Go Outer Diameter of Push Rod = sqrt(16*Radius of Gyration of Push Rod^2-Inner Diameter of Push Rod^2)
Inner Diameter of Engine Push Rod given Radius of Gyration
Go Inner Diameter of Push Rod = sqrt(16*Radius of Gyration of Push Rod^2-Outer Diameter of Push Rod^2)
Minimum Inner Diameter of Engine Push Rod given Outer Diameter
Go Inner Diameter of Push Rod = 0.6*Outer Diameter of Push Rod
Maximum Inner Diameter of Engine Push Rod given Outer Diameter
Go Inner Diameter of Push Rod = 0.8*Outer Diameter of Push Rod
Maximum Outer Diameter of Engine Push Rod given Inner Diameter
Go Outer Diameter of Push Rod = Inner Diameter of Push Rod/0.6
Minimum Outer Diameter of Engine Push Rod given Inner Diameter
Go Outer Diameter of Push Rod = Inner Diameter of Push Rod/0.8

Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration Formula

Cross Sectional Area of Push Rod = (Force on Push Rod*(1+Constant used in Buckling Load Formula*(Length of Push Rod/Radius of Gyration of Push Rod)^2))/Stress in Push Rod
Arod = (P*(1+a*(l/kG)^2))/σc

What is meant by knocking in engine?

Knocking in an internal-combustion engine, sharp sounds are caused by premature combustion of part of the compressed air-fuel mixture in the cylinder. In a properly functioning engine, the charge burns with the flame front progressing smoothly from the point of ignition across the combustion chamber.

How to Calculate Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration?

Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration calculator uses Cross Sectional Area of Push Rod = (Force on Push Rod*(1+Constant used in Buckling Load Formula*(Length of Push Rod/Radius of Gyration of Push Rod)^2))/Stress in Push Rod to calculate the Cross Sectional Area of Push Rod, Cross section area of engine push rod given force, stress, and radius of gyration is the area of a two-dimensional shape that is obtained when the push rod is sliced perpendicular to the longitudinal axis. Cross Sectional Area of Push Rod is denoted by Arod symbol.

How to calculate Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration using this online calculator? To use this online calculator for Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration, enter Force on Push Rod (P), Constant used in Buckling Load Formula (a), Length of Push Rod (l), Radius of Gyration of Push Rod (kG) & Stress in Push Rod c) and hit the calculate button. Here is how the Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration calculation can be explained with given input values -> 4E+7 = (450*(1+0.000133*(0.07/0.003)^2))/12000000.

FAQ

What is Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration?
Cross section area of engine push rod given force, stress, and radius of gyration is the area of a two-dimensional shape that is obtained when the push rod is sliced perpendicular to the longitudinal axis and is represented as Arod = (P*(1+a*(l/kG)^2))/σc or Cross Sectional Area of Push Rod = (Force on Push Rod*(1+Constant used in Buckling Load Formula*(Length of Push Rod/Radius of Gyration of Push Rod)^2))/Stress in Push Rod. Force on Push Rod is defined as the force (a push or pull on the pushrod resulting from its interaction with another part) that is acting onto the pushrod, Constant used in buckling load formula is a constant used in the calculation of critical buckling load in a member, Length of Push Rod is the size of the push rod from one end to another end (how long the rod is), Radius of Gyration of Push Rod is defined as the radial distance to a point that would have a moment of inertia the same as the rod's actual distribution of mass & Stress in Push Rod is defined as the force per unit area within the push rod material that arises due to the externally applied forces onto it.
How to calculate Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration?
Cross section area of engine push rod given force, stress, and radius of gyration is the area of a two-dimensional shape that is obtained when the push rod is sliced perpendicular to the longitudinal axis is calculated using Cross Sectional Area of Push Rod = (Force on Push Rod*(1+Constant used in Buckling Load Formula*(Length of Push Rod/Radius of Gyration of Push Rod)^2))/Stress in Push Rod. To calculate Cross Section Area of Engine Push Rod given Force, Stress, and Radius of Gyration, you need Force on Push Rod (P), Constant used in Buckling Load Formula (a), Length of Push Rod (l), Radius of Gyration of Push Rod (kG) & Stress in Push Rod c). With our tool, you need to enter the respective value for Force on Push Rod, Constant used in Buckling Load Formula, Length of Push Rod, Radius of Gyration of Push Rod & Stress in Push Rod 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 Cross Sectional Area of Push Rod?
In this formula, Cross Sectional Area of Push Rod uses Force on Push Rod, Constant used in Buckling Load Formula, Length of Push Rod, Radius of Gyration of Push Rod & Stress in Push Rod. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Cross Sectional Area of Push Rod = pi/4*(Outer Diameter of Push Rod^2-Inner Diameter of Push Rod^2)
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