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Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys Formula

GoVelocity Ratio in Weston's Differential Pulley given Number of Teeth Formula

GoVelocity Ratio of Worm Geared Pulley Block Formula

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Velocity Ratio is the distance through which any part of a machine moves to that which the driving part moves during the same time. Check FAQs

V i = 2 \cdot \frac{r 1}{r 1 - r 2}

V_i - Velocity Ratio?r₁ - Radius of Larger Pulley?r₂ - Radius of Smaller Pulley?

Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys Example

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Here is how the Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys equation looks like with Values.

Here is how the Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys equation looks like with Units.

Here is how the Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys equation looks like.

6.5455 = 2 \cdot \frac{9}{9 - 6.25}

6.5455 = 2 \cdot \frac{9m}{9m - 6.25m}

6.5455 = 2 \cdot \frac{9}{9 - 6.25}

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Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys Solution

Follow our step by step solution on how to calculate Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys?

FIRST Step Consider the formula

V i = 2 \cdot \frac{r 1}{r 1 - r 2}

Next Step Substitute values of Variables

∴

V i = 2 \cdot \frac{9m}{9m - 6.25m}

Next Step Prepare to Evaluate

∴

V i = 2 \cdot \frac{9}{9 - 6.25}

Next Step Evaluate

∴

V i = 6.54545454545455

LAST Step Rounding Answer

∴

V i = 6.5455

Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys Formula Elements

Variables

Velocity Ratio

Velocity Ratio is the distance through which any part of a machine moves to that which the driving part moves during the same time.

Symbol: V_i

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Velocity Ratio

Radius of Larger Pulley

Radius of Larger Pulley is a straight line from the center to the circumference of pulley.

Symbol: r₁

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Radius of Larger Pulley

Radius of Smaller Pulley

Radius of Smaller Pulley is a straight line from the center to the circumference of pulley.

Symbol: r₂

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Radius of Smaller Pulley

Other Formulas to find Velocity Ratio

Go Velocity Ratio in Weston's Differential Pulley given Number of Teeth

V i = 2 \cdot \frac{T 1}{T 1 - T 2}

Go Velocity Ratio of Worm Geared Pulley Block

V i = \frac{d w \cdot T w}{R}

Go Velocity Ratio in Weston's Differential Pulley Block

V i = \frac{2 \cdot d l}{d l - d s}

Other formulas in Pulley Block category

Go Net Shortening of Chain in Weston's Differential Pulley Block

L c = π \cdot (d l - d s)

Go Efficiency of Weston's Differential Pulley Block

η = \frac{M a}{V i}

Go Net Shortening of String in Worm Gear Pulley Block

L s = \frac{2 \cdot π \cdot R}{T w}

Go Efficiency of Geared Pulley Block

η = \frac{M a}{V i}

How to Evaluate Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys?

Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys evaluator uses Velocity Ratio = 2*Radius of Larger Pulley/(Radius of Larger Pulley-Radius of Smaller Pulley) to evaluate the Velocity Ratio, Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys Block can be determined using the radii of the two pulleys involved. Velocity Ratio is denoted by V_i symbol.

How to evaluate Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys using this online evaluator? To use this online evaluator for Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys, enter Radius of Larger Pulley (r₁) & Radius of Smaller Pulley (r₂) and hit the calculate button.

FAQs on Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys

What is the formula to find Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys?

The formula of Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys is expressed as Velocity Ratio = 2*Radius of Larger Pulley/(Radius of Larger Pulley-Radius of Smaller Pulley). Here is an example- 6.545455 = 2*9/(9-6.25).

How to calculate Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys?

With Radius of Larger Pulley (r₁) & Radius of Smaller Pulley (r₂) we can find Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys using the formula - Velocity Ratio = 2*Radius of Larger Pulley/(Radius of Larger Pulley-Radius of Smaller Pulley).

What are the other ways to Calculate Velocity Ratio?

Here are the different ways to Calculate Velocity Ratio-

Velocity Ratio=2*Number of Teeth of Larger Pulley/(Number of Teeth of Larger Pulley-Number of Teeth of Smaller Pulley)
Velocity Ratio=(Diameter of Effort Wheel*Number of Teeth on Worm Wheel)/Radius of Pulley
Velocity Ratio=(2*Diameter of Larger Pulley)/(Diameter of Larger Pulley-Diameter of Smaller Pulley)

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Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys Formula

​GoVelocity Ratio in Weston's Differential Pulley given Number of Teeth Formula

​GoVelocity Ratio of Worm Geared Pulley Block Formula

Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys Example

Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys Solution

Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys Formula Elements

Other Formulas to find Velocity Ratio

Other formulas in Pulley Block category

How to Evaluate Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys?

FAQs on Velocity Ratio in Weston's Differential Pulley given Radius of Pulleys

Variable Name

GoVelocity Ratio in Weston's Differential Pulley given Number of Teeth Formula

GoVelocity Ratio of Worm Geared Pulley Block Formula