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Height of Elliptic Cylinder given Surface to Volume Ratio Formula

GoHeight of Elliptic Cylinder Formula

GoHeight of Elliptic Cylinder given Volume Formula

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Height of Elliptic Cylinder is the vertical distance from the bottom elliptical face to the top of the Elliptic Cylinder. Check FAQs

h = \frac{LSA + (2 \cdot π \cdot b \cdot a)}{π \cdot R A/V \cdot b \cdot a}

h - Height of Elliptic Cylinder?LSA - Lateral Surface Area of Elliptic Cylinder?b - Semi Minor Axis of Elliptic Cylinder?a - Semi Major Axis of Elliptic Cylinder?R_A/V - Surface to Volume Ratio of Elliptic Cylinder?π - Archimedes' constant?

Height of Elliptic Cylinder given Surface to Volume Ratio Example

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Here is how the Height of Elliptic Cylinder given Surface to Volume Ratio equation looks like with Values.

Here is how the Height of Elliptic Cylinder given Surface to Volume Ratio equation looks like with Units.

Here is how the Height of Elliptic Cylinder given Surface to Volume Ratio equation looks like.

5.2545 = \frac{95 + (2 \cdot 3.1416 \cdot 2 \cdot 4)}{3.1416 \cdot 1.1 \cdot 2 \cdot 4}

5.2545m = \frac{95m² + (2 \cdot 3.1416 \cdot 2m \cdot 4m)}{3.1416 \cdot 1.1m⁻¹ \cdot 2m \cdot 4m}

5.2545 = \frac{95 + (2 \cdot 3.1416 \cdot 2 \cdot 4)}{3.1416 \cdot 1.1 \cdot 2 \cdot 4}

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Height of Elliptic Cylinder given Surface to Volume Ratio Solution

Follow our step by step solution on how to calculate Height of Elliptic Cylinder given Surface to Volume Ratio?

FIRST Step Consider the formula

h = \frac{LSA + (2 \cdot π \cdot b \cdot a)}{π \cdot R A/V \cdot b \cdot a}

Next Step Substitute values of Variables

∴

h = \frac{95m² + (2 \cdot π \cdot 2m \cdot 4m)}{π \cdot 1.1m⁻¹ \cdot 2m \cdot 4m}

Next Step Substitute values of Constants

∴

h = \frac{95m² + (2 \cdot 3.1416 \cdot 2m \cdot 4m)}{3.1416 \cdot 1.1m⁻¹ \cdot 2m \cdot 4m}

Next Step Prepare to Evaluate

∴

h = \frac{95 + (2 \cdot 3.1416 \cdot 2 \cdot 4)}{3.1416 \cdot 1.1 \cdot 2 \cdot 4}

Next Step Evaluate

∴

h = 5.25448172584774m

LAST Step Rounding Answer

∴

h = 5.2545m

Height of Elliptic Cylinder given Surface to Volume Ratio Formula Elements

Variables

Constants

Height of Elliptic Cylinder

Height of Elliptic Cylinder is the vertical distance from the bottom elliptical face to the top of the Elliptic Cylinder.

Symbol: h

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Height of Elliptic Cylinder

Lateral Surface Area of Elliptic Cylinder

Lateral Surface Area of Elliptic Cylinder is the total quantity of plane enclosed on the lateral curved surface of the Elliptic Cylinder.

Symbol: LSA

Measurement: AreaUnit: m²

Note: Value should be greater than 0.

Formulas to find Lateral Surface Area of Elliptic Cylinder

Semi Minor Axis of Elliptic Cylinder

Semi Minor Axis of Elliptic Cylinder is the half of the length of the longest chord which is perpendicular to the line joining the foci of the elliptic face of the Elliptic Cylinder.

Symbol: b

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Semi Minor Axis of Elliptic Cylinder

Semi Major Axis of Elliptic Cylinder

Semi Major Axis of Elliptic Cylinder is the longest radius of elliptic face, as it begins in the center of the elliptic face, follows the major axis, and ends at the furthest edge-point.

Symbol: a

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Semi Major Axis of Elliptic Cylinder

Surface to Volume Ratio of Elliptic Cylinder

Surface to Volume Ratio of Elliptic Cylinder is the numerical ratio of the total surface area of Elliptic Cylinder to the volume of the Elliptic Cylinder.

Symbol: R_A/V

Measurement: Reciprocal LengthUnit: m⁻¹

Note: Value should be greater than 0.

Formulas to find Surface to Volume Ratio of Elliptic Cylinder

Archimedes' constant

Archimedes' constant is a mathematical constant that represents the ratio of the circumference of a circle to its diameter.

Symbol: π

Value: 3.14159265358979323846264338327950288

Other Formulas to find Height of Elliptic Cylinder

Go Height of Elliptic Cylinder

h = \frac{LSA}{π \cdot (b + a)}

Go Height of Elliptic Cylinder given Volume

h = \frac{V}{π \cdot b \cdot a}

How to Evaluate Height of Elliptic Cylinder given Surface to Volume Ratio?

Height of Elliptic Cylinder given Surface to Volume Ratio evaluator uses Height of Elliptic Cylinder = (Lateral Surface Area of Elliptic Cylinder+(2*pi*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder))/(pi*Surface to Volume Ratio of Elliptic Cylinder*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder) to evaluate the Height of Elliptic Cylinder, Height of Elliptic Cylinder given Surface to Volume Ratio formula is defined as the vertical distance from the bottom elliptical face to the top of the Elliptic Cylinder and is calculated using lateral surface area, surface to volume ratio, semi-minor axis and semi-major axis of Elliptic Cylinder. Height of Elliptic Cylinder is denoted by h symbol.

How to evaluate Height of Elliptic Cylinder given Surface to Volume Ratio using this online evaluator? To use this online evaluator for Height of Elliptic Cylinder given Surface to Volume Ratio, enter Lateral Surface Area of Elliptic Cylinder (LSA), Semi Minor Axis of Elliptic Cylinder (b), Semi Major Axis of Elliptic Cylinder (a) & Surface to Volume Ratio of Elliptic Cylinder (R_A/V) and hit the calculate button.

FAQs on Height of Elliptic Cylinder given Surface to Volume Ratio

What is the formula to find Height of Elliptic Cylinder given Surface to Volume Ratio?

The formula of Height of Elliptic Cylinder given Surface to Volume Ratio is expressed as Height of Elliptic Cylinder = (Lateral Surface Area of Elliptic Cylinder+(2*pi*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder))/(pi*Surface to Volume Ratio of Elliptic Cylinder*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder). Here is an example- 5.254482 = (95+(2*pi*2*4))/(pi*1.1*2*4).

How to calculate Height of Elliptic Cylinder given Surface to Volume Ratio?

With Lateral Surface Area of Elliptic Cylinder (LSA), Semi Minor Axis of Elliptic Cylinder (b), Semi Major Axis of Elliptic Cylinder (a) & Surface to Volume Ratio of Elliptic Cylinder (R_A/V) we can find Height of Elliptic Cylinder given Surface to Volume Ratio using the formula - Height of Elliptic Cylinder = (Lateral Surface Area of Elliptic Cylinder+(2*pi*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder))/(pi*Surface to Volume Ratio of Elliptic Cylinder*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder). This formula also uses Archimedes' constant .

What are the other ways to Calculate Height of Elliptic Cylinder?

Here are the different ways to Calculate Height of Elliptic Cylinder-

Height of Elliptic Cylinder=Lateral Surface Area of Elliptic Cylinder/(pi*(Semi Minor Axis of Elliptic Cylinder+Semi Major Axis of Elliptic Cylinder))
Height of Elliptic Cylinder=Volume of Elliptic Cylinder/(pi*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder)

Can the Height of Elliptic Cylinder given Surface to Volume Ratio be negative?

No, the Height of Elliptic Cylinder given Surface to Volume Ratio, measured in Length cannot be negative.

Which unit is used to measure Height of Elliptic Cylinder given Surface to Volume Ratio?

Height of Elliptic Cylinder given Surface to Volume Ratio is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Height of Elliptic Cylinder given Surface to Volume Ratio can be measured.

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Height of Elliptic Cylinder given Surface to Volume Ratio Formula

​GoHeight of Elliptic Cylinder Formula

​GoHeight of Elliptic Cylinder given Volume Formula

Height of Elliptic Cylinder given Surface to Volume Ratio Example

Height of Elliptic Cylinder given Surface to Volume Ratio Solution

Height of Elliptic Cylinder given Surface to Volume Ratio Formula Elements

Other Formulas to find Height of Elliptic Cylinder

How to Evaluate Height of Elliptic Cylinder given Surface to Volume Ratio?

FAQs on Height of Elliptic Cylinder given Surface to Volume Ratio

Variable Name

GoHeight of Elliptic Cylinder Formula

GoHeight of Elliptic Cylinder given Volume Formula