Static Load on Ball of Ball Bearing given Primary force Calculator

✖Force on Ball Bearing is any interaction that, when unopposed, will change the motion of the bearing. It is the force required to cause deformation in the bearing.ⓘ Force on Ball Bearing [F]			+10% -10%
✖Number of Balls in Bearing refers to the number of balls that are present in the ball bearing.ⓘ Number of Balls in Bearing [z]			+10% -10%

✖Static Load on Bearing is the load acting onto the bearing when the bearing is not rotating or the bearing is in static condition.ⓘ Static Load on Ball of Ball Bearing given Primary force [C_o]

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Formula

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Static Load on Ball of Ball Bearing given Primary force

Formula

`"C"_{"o"} = "F"*"z"/5`

Example

`"45000N"="15000N"*"15"/5`

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Static Load on Ball of Ball Bearing given Primary force Solution

STEP 0: Pre-Calculation Summary

Formula Used

Static Load on Bearing = Force on Ball Bearing*Number of Balls in Bearing/5
C_o = F*z/5
This formula uses 3 Variables

Variables Used

Static Load on Bearing - (Measured in Newton) - Static Load on Bearing is the load acting onto the bearing when the bearing is not rotating or the bearing is in static condition.
Force on Ball Bearing - (Measured in Newton) - Force on Ball Bearing is any interaction that, when unopposed, will change the motion of the bearing. It is the force required to cause deformation in the bearing.
Number of Balls in Bearing - Number of Balls in Bearing refers to the number of balls that are present in the ball bearing.

STEP 1: Convert Input(s) to Base Unit

Force on Ball Bearing: 15000 Newton --> 15000 Newton No Conversion Required
Number of Balls in Bearing: 15 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C_o = F*z/5 --> 15000*15/5

Evaluating ... ...

C_o = 45000

STEP 3: Convert Result to Output's Unit

45000 Newton --> No Conversion Required

FINAL ANSWER

45000 Newton <-- Static Load on Bearing

(Calculation completed in 00.004 seconds)

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Osmania University (OU), Hyderabad

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< 12 Stribeck’s Equation Calculators

Diameter of Ball of Bearing from Stribeck's Equation

Go Ball diameter of a bearing = sqrt((5*Static Load on Bearing)/(K Factor*Number of Balls in Bearing))

Number of Balls of Ball Bearing from Stribeck's Equation

Go Number of Balls in Bearing = 5*Static Load on Bearing/(K Factor*Ball diameter of a bearing^2)

K Factor for Ball Bearing from Stribeck's Equation

Go K Factor = 5*Static Load on Bearing/(Ball diameter of a bearing^2*Number of Balls in Bearing)

Static Load on Ball of Ball Bearing from Stribeck's Equation

Go Static Load on Bearing = K Factor*Ball diameter of a bearing^2*Number of Balls in Bearing/5

Diameter of Ball of Bearing given Force required to produce Permanent Deformation in Ball

Go Ball diameter of a bearing = sqrt(Force on Ball Bearing/K Factor)

Force required to produce Permanent Deformation of Balls of Ball Bearing given Static Load

Go Force on Ball Bearing = 5*Static Load on Bearing/Number of Balls in Bearing

Static Load on Ball of Ball Bearing given Primary force

Go Static Load on Bearing = Force on Ball Bearing*Number of Balls in Bearing/5

Number of Balls of Ball Bearing given Static Load

Go Number of Balls in Bearing = 5*Static Load on Bearing/Force on Ball Bearing

K Factor for Ball Bearing given Force required to produce Permanent Deformation of Balls

Go K Factor = Force on Ball Bearing/Ball diameter of a bearing^2

Force required to produce Permanent Deformation of Balls of Ball Bearing

Go Force on Ball Bearing = K Factor*Ball diameter of a bearing^2

Number of Balls of Ball Bearing given Angle between Balls

Go Number of Balls in Bearing = 360/Angle between balls of bearing in degrees

Angle between adjacent Balls of Ball Bearing

Go Angle between balls of bearing in degrees = 360/Number of Balls in Bearing

Static Load on Ball of Ball Bearing given Primary force Formula

Static Load on Bearing = Force on Ball Bearing*Number of Balls in Bearing/5
C_o = F*z/5

Define Stribeck's Equation?

Stribeck curve is basically a curve between the coefficient of friction and bearing number. Unit load means the applied load divided by projected area, when we plot a coefficient of friction with bearing number, what we get at different domains and different regimes of lubrication.

How to Calculate Static Load on Ball of Ball Bearing given Primary force?

Static Load on Ball of Ball Bearing given Primary force calculator uses Static Load on Bearing = Force on Ball Bearing*Number of Balls in Bearing/5 to calculate the Static Load on Bearing, Static Load on Ball of Ball Bearing given Primary force formula is defined as the load acting onto a static ball bearing. Static Load on Bearing is denoted by C_o symbol.

How to calculate Static Load on Ball of Ball Bearing given Primary force using this online calculator? To use this online calculator for Static Load on Ball of Ball Bearing given Primary force, enter Force on Ball Bearing (F) & Number of Balls in Bearing (z) and hit the calculate button. Here is how the Static Load on Ball of Ball Bearing given Primary force calculation can be explained with given input values -> 45000 = 15000*15/5.

FAQ

What is Static Load on Ball of Ball Bearing given Primary force?

Static Load on Ball of Ball Bearing given Primary force formula is defined as the load acting onto a static ball bearing and is represented as C_o = F*z/5 or Static Load on Bearing = Force on Ball Bearing*Number of Balls in Bearing/5. Force on Ball Bearing is any interaction that, when unopposed, will change the motion of the bearing. It is the force required to cause deformation in the bearing & Number of Balls in Bearing refers to the number of balls that are present in the ball bearing.

How to calculate Static Load on Ball of Ball Bearing given Primary force?

Static Load on Ball of Ball Bearing given Primary force formula is defined as the load acting onto a static ball bearing is calculated using Static Load on Bearing = Force on Ball Bearing*Number of Balls in Bearing/5. To calculate Static Load on Ball of Ball Bearing given Primary force, you need Force on Ball Bearing (F) & Number of Balls in Bearing (z). With our tool, you need to enter the respective value for Force on Ball Bearing & Number of Balls in Bearing 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 Static Load on Bearing?

In this formula, Static Load on Bearing uses Force on Ball Bearing & Number of Balls in Bearing. We can use 1 other way(s) to calculate the same, which is/are as follows -

Static Load on Bearing = K Factor*Ball diameter of a bearing^2*Number of Balls in Bearing/5

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