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Force Acting on Engine Push Rod Made of Steel Formula

GoForce Acting on Engine Push Rod given its Dimensions and Stress Generated Formula

GoForce Acting on Engine Push Rod Formula

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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. Check FAQs

P = \frac{σ c \cdot A r}{1 + \frac{1}{7500} \cdot {(\frac{l}{k G})}^{2}}

P - Force on Push Rod?σ_c - Stress in Push Rod?A_r - Cross Sectional Area of Push Rod?l - Length of Push Rod?k_G - Radius of Gyration of Push Rod?

Force Acting on Engine Push Rod Made of Steel Example

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Here is how the Force Acting on Engine Push Rod Made of Steel equation looks like with Values.

Here is how the Force Acting on Engine Push Rod Made of Steel equation looks like with Units.

Here is how the Force Acting on Engine Push Rod Made of Steel equation looks like.

449.8987 = \frac{12.5 \cdot 40}{1 + \frac{1}{7500} \cdot {(\frac{86.7}{3})}^{2}}

449.8987N = \frac{12.5N/mm² \cdot 40mm²}{1 + \frac{1}{7500} \cdot {(\frac{86.7mm}{3mm})}^{2}}

449.8987 = \frac{12.5 \cdot 40}{1 + \frac{1}{7500} \cdot {(\frac{86.7}{3})}^{2}}

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Force Acting on Engine Push Rod Made of Steel Solution

Follow our step by step solution on how to calculate Force Acting on Engine Push Rod Made of Steel?

FIRST Step Consider the formula

P = \frac{σ c \cdot A r}{1 + \frac{1}{7500} \cdot {(\frac{l}{k G})}^{2}}

Next Step Substitute values of Variables

∴

P = \frac{12.5N/mm² \cdot 40mm²}{1 + \frac{1}{7500} \cdot {(\frac{86.7mm}{3mm})}^{2}}

Next Step Convert Units

∴

P = \frac{1.3E+7Pa \cdot 4E-5m²}{1 + \frac{1}{7500} \cdot {(\frac{0.0867m}{0.003m})}^{2}}

Next Step Prepare to Evaluate

∴

P = \frac{1.3E+7 \cdot 4E-5}{1 + \frac{1}{7500} \cdot {(\frac{0.0867}{0.003})}^{2}}

Next Step Evaluate

∴

P = 449.89868281663N

LAST Step Rounding Answer

∴

P = 449.8987N

Force Acting on Engine Push Rod Made of Steel Formula Elements

Variables

Force on 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.

Symbol: P

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Force on Push Rod

Stress in Push Rod

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.

Symbol: σ_c

Measurement: StressUnit: N/mm²

Note: Value should be greater than 0.

Formulas to find Stress in Push Rod

Cross Sectional Area of Push Rod

Cross Sectional Area of Push Rod is the area of the section of the pushrod when it is along perpendicular to its length.

Symbol: A_r

Measurement: AreaUnit: mm²

Note: Value should be greater than 0.

Formulas to find Cross Sectional Area of Push Rod

Length of Push Rod

Length of Push Rod is the size of the push rod from one end to another end (how long the rod is).

Symbol: l

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Length of Push Rod

Radius of Gyration of Push Rod

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.

Symbol: k_G

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Radius of Gyration of Push Rod

Other Formulas to find Force on Push Rod

Go Force Acting on Engine Push Rod given its Dimensions and Stress Generated

P = \frac{σ c \cdot \frac{π}{4} \cdot ({d o}^{2} - {d i}^{2})}{1 + a \cdot (\frac{l^{2}}{\frac{{d o}^{2} + {d i}^{2}}{16}})}

Go Force Acting on Engine Push Rod

P = \frac{σ c \cdot A r}{1 + a \cdot {(\frac{l}{k G})}^{2}}

Other formulas in Push Rod category

Go Minimum Inner Diameter of Engine Push Rod given Outer Diameter

d i = 0.6 \cdot d o

Go Maximum Inner Diameter of Engine Push Rod given Outer Diameter

d i = 0.8 \cdot d o

Go Maximum Outer Diameter of Engine Push Rod given Inner Diameter

d o = \frac{d i}{0.6}

Go Minimum Outer Diameter of Engine Push Rod given Inner Diameter

d o = \frac{d i}{0.8}

How to Evaluate Force Acting on Engine Push Rod Made of Steel?

Force Acting on Engine Push Rod Made of Steel evaluator uses 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) to evaluate the Force on Push Rod, Force acting on engine push rod made of steel is the amount of force acting onto the end of a pushrod which is fitted with a lifter, upon which the camshaft makes contact. The camshaft lobe moves the lifter upwards, which moves the pushrod. Force on Push Rod is denoted by P symbol.

How to evaluate Force Acting on Engine Push Rod Made of Steel using this online evaluator? To use this online evaluator for Force Acting on Engine Push Rod Made of Steel, enter Stress in Push Rod (σ_c), Cross Sectional Area of Push Rod (A_r), Length of Push Rod (l) & Radius of Gyration of Push Rod (k_G) and hit the calculate button.

FAQs on Force Acting on Engine Push Rod Made of Steel

What is the formula to find Force Acting on Engine Push Rod Made of Steel?

The formula of Force Acting on Engine Push Rod Made of Steel is expressed as 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). Here is an example- 446.3116 = (12500000*4E-05)/(1+1/7500*(0.0867/0.003)^2).

How to calculate Force Acting on Engine Push Rod Made of Steel?

With Stress in Push Rod (σ_c), Cross Sectional Area of Push Rod (A_r), Length of Push Rod (l) & Radius of Gyration of Push Rod (k_G) we can find Force Acting on Engine Push Rod Made of Steel using the formula - 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).

What are the other ways to Calculate Force on Push Rod?

Here are the different ways to Calculate Force on Push Rod-

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)))
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)

Can the Force Acting on Engine Push Rod Made of Steel be negative?

No, the Force Acting on Engine Push Rod Made of Steel, measured in Force cannot be negative.

Which unit is used to measure Force Acting on Engine Push Rod Made of Steel?

Force Acting on Engine Push Rod Made of Steel is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Force Acting on Engine Push Rod Made of Steel can be measured.

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Force Acting on Engine Push Rod Made of Steel Formula

​GoForce Acting on Engine Push Rod given its Dimensions and Stress Generated Formula

​GoForce Acting on Engine Push Rod Formula

Force Acting on Engine Push Rod Made of Steel Example

Force Acting on Engine Push Rod Made of Steel Solution

Force Acting on Engine Push Rod Made of Steel Formula Elements

Other Formulas to find Force on Push Rod

Other formulas in Push Rod category

How to Evaluate Force Acting on Engine Push Rod Made of Steel?

FAQs on Force Acting on Engine Push Rod Made of Steel

Variable Name

GoForce Acting on Engine Push Rod given its Dimensions and Stress Generated Formula

GoForce Acting on Engine Push Rod Formula