Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing Calculator

✖The Dynamic Viscosity of Lubricant is the resistance to movement of one layer of fluid over another.ⓘ Dynamic Viscosity of Lubricant [μ_l]			+10% -10%
✖The Density of Lubricating Oil is defined as the mass of a unit volume of oil.ⓘ Density of Lubricating Oil [ρ]			+10% -10%

✖Kinematic viscosity of lubricant oil is an atmospheric variable defined as the ratio between the dynamic viscosity μ and the density ρ of the fluid.ⓘ Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing [z]

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Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing Solution

STEP 0: Pre-Calculation Summary

Formula Used

Kinematic Viscosity of Lubricant Oil = Dynamic Viscosity of Lubricant/Density of Lubricating Oil
z = μ_l/ρ
This formula uses 3 Variables

Variables Used

Kinematic Viscosity of Lubricant Oil - (Measured in Square Meter per Second) - Kinematic viscosity of lubricant oil is an atmospheric variable defined as the ratio between the dynamic viscosity μ and the density ρ of the fluid.
Dynamic Viscosity of Lubricant - (Measured in Pascal Second) - The Dynamic Viscosity of Lubricant is the resistance to movement of one layer of fluid over another.
Density of Lubricating Oil - (Measured in Kilogram per Cubic Meter) - The Density of Lubricating Oil is defined as the mass of a unit volume of oil.

STEP 1: Convert Input(s) to Base Unit

Dynamic Viscosity of Lubricant: 220 Centipoise --> 0.22 Pascal Second (Check conversion here)
Density of Lubricating Oil: 0.88 Gram per Cubic Centimeter --> 880 Kilogram per Cubic Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

z = μ_l/ρ --> 0.22/880

Evaluating ... ...

z = 0.00025

STEP 3: Convert Result to Output's Unit

0.00025 Square Meter per Second -->250 Centistokes (Check conversion here)

FINAL ANSWER

250 Centistokes <-- Kinematic Viscosity of Lubricant Oil

(Calculation completed in 00.004 seconds)

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National Institute of Technology (NIT), Tiruchirapalli

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< Viscosity and Density of Lubricant Calculators

Area of moving plate of sliding contact bearing given absolute viscosity

Go Area of Moving Plate on Oil = Tangential force on moving plate*Oil Film Thickness/(Dynamic Viscosity of Oil*Velocity of Moving Plate on Oil)

Velocity of Moving Plate in Terms of Absolute Viscosity

Go Velocity of Moving Plate on Oil = Tangential force on moving plate*Oil Film Thickness/(Dynamic Viscosity of Oil*Area of Moving Plate on Oil)

Absolute Viscosity of Oil in Terms of Tangential Force

Go Dynamic Viscosity of Oil = Tangential force on moving plate*Oil Film Thickness/(Area of Moving Plate on Oil*Velocity of Moving Plate on Oil)

Kinematic Viscosity in Centi-Stokes in Terms of Viscosity in Saybolt's Unversal Seconds

Go Kinematic Viscosity in Centi-Stokes = (0.22*Viscosity in Saybolt Universal Seconds)-(180/Viscosity in Saybolt Universal Seconds)

Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing Formula

Kinematic Viscosity of Lubricant Oil = Dynamic Viscosity of Lubricant/Density of Lubricating Oil
z = μ_l/ρ

What is Sliding Contact Bearing?

The sliding contact bearings in which the sliding action is along the circumference of a circle or an arc of a circle and carrying radial loads are known as journal or sleeve bearings.

How to Calculate Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing?

Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing calculator uses Kinematic Viscosity of Lubricant Oil = Dynamic Viscosity of Lubricant/Density of Lubricating Oil to calculate the Kinematic Viscosity of Lubricant Oil, Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing formula is a measure of the fluid's resistance to flow under shear stress, essential for understanding lubrication performance in mechanical systems involving sliding contact bearings. Kinematic Viscosity of Lubricant Oil is denoted by z symbol.

How to calculate Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing using this online calculator? To use this online calculator for Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing, enter Dynamic Viscosity of Lubricant (μ_l) & Density of Lubricating Oil (ρ) and hit the calculate button. Here is how the Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing calculation can be explained with given input values -> 2.5E+8 = 0.22/880.

FAQ

What is Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing?

Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing formula is a measure of the fluid's resistance to flow under shear stress, essential for understanding lubrication performance in mechanical systems involving sliding contact bearings and is represented as z = μ_l/ρ or Kinematic Viscosity of Lubricant Oil = Dynamic Viscosity of Lubricant/Density of Lubricating Oil. The Dynamic Viscosity of Lubricant is the resistance to movement of one layer of fluid over another & The Density of Lubricating Oil is defined as the mass of a unit volume of oil.

How to calculate Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing?

Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing formula is a measure of the fluid's resistance to flow under shear stress, essential for understanding lubrication performance in mechanical systems involving sliding contact bearings is calculated using Kinematic Viscosity of Lubricant Oil = Dynamic Viscosity of Lubricant/Density of Lubricating Oil. To calculate Kinematic Viscosity given Viscosity and Density for Sliding Contact Ball Bearing, you need Dynamic Viscosity of Lubricant (μ_l) & Density of Lubricating Oil (ρ). With our tool, you need to enter the respective value for Dynamic Viscosity of Lubricant & Density of Lubricating Oil 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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