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Shape Factor using Pendant Drop Formula

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Shape Factor of Drop is quantity pertaining to the ratio of two significant diameters. Check FAQs

S S = \frac{d s}{d e}

S_S - Shape Factor of Drop?d_s - Diameter of Tip of Drop?d_e - Equatorial Diameter?

Shape Factor using Pendant Drop Example

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Here is how the Shape Factor using Pendant Drop equation looks like with Values.

Here is how the Shape Factor using Pendant Drop equation looks like with Units.

Here is how the Shape Factor using Pendant Drop equation looks like.

0.85 = \frac{17}{20}

0.85 = \frac{17m}{20m}

0.85 = \frac{17}{20}

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Shape Factor using Pendant Drop Solution

Follow our step by step solution on how to calculate Shape Factor using Pendant Drop?

FIRST Step Consider the formula

S S = \frac{d s}{d e}

Next Step Substitute values of Variables

∴

S S = \frac{17m}{20m}

Next Step Convert Units

∴

S S = \frac{17000mm}{20000mm}

Next Step Prepare to Evaluate

∴

S S = \frac{17000}{20000}

LAST Step Evaluate

∴

S S = 0.85

Shape Factor using Pendant Drop Formula Elements

Variables

Shape Factor of Drop

Shape Factor of Drop is quantity pertaining to the ratio of two significant diameters.

Symbol: S_S

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Shape Factor of Drop

Diameter of Tip of Drop

The Diameter of Tip of Drop is a diameter at a distance (equatorial diameter) from the tip of the drop.

Symbol: d_s

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Diameter of Tip of Drop

Equatorial Diameter

The equatorial Diameter is the drop (or the bubble) diameter at its maximum width.

Symbol: d_e

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Equatorial Diameter

Other formulas in Laplace and Surface Pressure category

Go Laplace Pressure of Bubbles or Droplets using Young Laplace Equation

ΔP b = \frac{σ \cdot 2}{R c}

Go Laplace Pressure of Curved Surface using Young-Laplace Equation

ΔP y = σ \cdot ((\frac{1}{R 1}) + (\frac{1}{R 2}))

Go Laplace Pressure

ΔP = P inside - P outside

Go Interfacial Tension by Laplace Equation

σ i = ΔP - (\frac{R 1 \cdot R 2}{R 1 + R 2})

How to Evaluate Shape Factor using Pendant Drop?

Shape Factor using Pendant Drop evaluator uses Shape Factor of Drop = Diameter of Tip of Drop/Equatorial Diameter to evaluate the Shape Factor of Drop, The Shape Factor using Pendant Drop formula is defined as the ratio of the diameter at the distance (equatorial diameter) from the drop (bubble) bottom to the drop (or the bubble) diameter at its maximum width. Shape Factor of Drop is denoted by S_S symbol.

How to evaluate Shape Factor using Pendant Drop using this online evaluator? To use this online evaluator for Shape Factor using Pendant Drop, enter Diameter of Tip of Drop (d_s) & Equatorial Diameter (d_e) and hit the calculate button.

FAQs on Shape Factor using Pendant Drop

What is the formula to find Shape Factor using Pendant Drop?

The formula of Shape Factor using Pendant Drop is expressed as Shape Factor of Drop = Diameter of Tip of Drop/Equatorial Diameter. Here is an example- 0.85 = 17/20.

How to calculate Shape Factor using Pendant Drop?

With Diameter of Tip of Drop (d_s) & Equatorial Diameter (d_e) we can find Shape Factor using Pendant Drop using the formula - Shape Factor of Drop = Diameter of Tip of Drop/Equatorial Diameter.

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Shape Factor using Pendant Drop Formula

Shape Factor using Pendant Drop Example

Shape Factor using Pendant Drop Solution

Shape Factor using Pendant Drop Formula Elements

Other formulas in Laplace and Surface Pressure category

How to Evaluate Shape Factor using Pendant Drop?

FAQs on Shape Factor using Pendant Drop

Variable Name