Height of Elliptic Cylinder Calculator

✖Lateral Surface Area of Elliptic Cylinder is the total quantity of plane enclosed on the lateral curved surface of the Elliptic Cylinder.ⓘ Lateral Surface Area of Elliptic Cylinder [LSA]			+10% -10%
✖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.ⓘ Semi Minor Axis of Elliptic Cylinder [b]			+10% -10%
✖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.ⓘ Semi Major Axis of Elliptic Cylinder [a]			+10% -10%

✖Height of Elliptic Cylinder is the vertical distance from the bottom elliptical face to the top of the Elliptic Cylinder.ⓘ Height of Elliptic Cylinder [h]

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Height of Elliptic Cylinder Solution

STEP 0: Pre-Calculation Summary

Formula Used

Height of Elliptic Cylinder = Lateral Surface Area of Elliptic Cylinder/(pi*(Semi Minor Axis of Elliptic Cylinder+Semi Major Axis of Elliptic Cylinder))
h = LSA/(pi*(b+a))
This formula uses 1 Constants, 4 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Height of Elliptic Cylinder - (Measured in Meter) - Height of Elliptic Cylinder is the vertical distance from the bottom elliptical face to the top of the Elliptic Cylinder.
Lateral Surface Area of Elliptic Cylinder - (Measured in Square Meter) - Lateral Surface Area of Elliptic Cylinder is the total quantity of plane enclosed on the lateral curved surface of the Elliptic Cylinder.
Semi Minor Axis of Elliptic Cylinder - (Measured in Meter) - 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.
Semi Major Axis of Elliptic Cylinder - (Measured in Meter) - 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.

STEP 1: Convert Input(s) to Base Unit

Lateral Surface Area of Elliptic Cylinder: 95 Square Meter --> 95 Square Meter No Conversion Required
Semi Minor Axis of Elliptic Cylinder: 2 Meter --> 2 Meter No Conversion Required
Semi Major Axis of Elliptic Cylinder: 4 Meter --> 4 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

h = LSA/(pi*(b+a)) --> 95/(pi*(2+4))

Evaluating ... ...

h = 5.03990653124335

STEP 3: Convert Result to Output's Unit

5.03990653124335 Meter --> No Conversion Required

FINAL ANSWER

5.03990653124335 ≈ 5.039907 Meter <-- Height of Elliptic Cylinder

(Calculation completed in 00.020 seconds)

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< Height of Elliptic Cylinder Calculators

Height of Elliptic Cylinder given Surface to Volume Ratio

LaTeX Go 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)

Height of Elliptic Cylinder

LaTeX Go 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 given Volume

LaTeX Go Height of Elliptic Cylinder = Volume of Elliptic Cylinder/(pi*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder)

< Important Formulas of Elliptic Cylinder Calculators

Height of Elliptic Cylinder

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

Lateral Surface Area of Elliptic Cylinder

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

Semi Major Axis of Elliptic Cylinder given Volume

LaTeX Go Semi Major Axis of Elliptic Cylinder = Volume of Elliptic Cylinder/(pi*Height of Elliptic Cylinder*Semi Minor Axis of Elliptic Cylinder)

Semi Minor Axis of Elliptic Cylinder given Volume

LaTeX Go Semi Minor Axis of Elliptic Cylinder = Volume of Elliptic Cylinder/(pi*Height of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder)

Height of Elliptic Cylinder Formula

LaTeX Go

Height of Elliptic Cylinder = Lateral Surface Area of Elliptic Cylinder/(pi*(Semi Minor Axis of Elliptic Cylinder+Semi Major Axis of Elliptic Cylinder))
h = LSA/(pi*(b+a))

What is Elliptic Cylinder?

Elliptic Cylinder is a cylinder with an elliptical cross section. It is a quadratic ruled surface. It is a cylinder with an ellipse as directrix.

How to Calculate Height of Elliptic Cylinder?

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

How to calculate Height of Elliptic Cylinder using this online calculator? To use this online calculator for Height of Elliptic Cylinder, enter Lateral Surface Area of Elliptic Cylinder (LSA), Semi Minor Axis of Elliptic Cylinder (b) & Semi Major Axis of Elliptic Cylinder (a) and hit the calculate button. Here is how the Height of Elliptic Cylinder calculation can be explained with given input values -> 5.039907 = 95/(pi*(2+4)).

FAQ

What is Height of Elliptic Cylinder?

Height of Elliptic Cylinder formula is defined as the vertical distance from the bottom elliptical face to the top of the Elliptic Cylinder and is calculated using the lateral surface area, semi-major axis, and semi-minor axis of the Elliptic Cylinder and is represented as h = LSA/(pi*(b+a)) or Height of Elliptic Cylinder = Lateral Surface Area of Elliptic Cylinder/(pi*(Semi Minor Axis of Elliptic Cylinder+Semi Major Axis 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, 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 & 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.

How to calculate Height of Elliptic Cylinder?

Height of Elliptic Cylinder formula is defined as the vertical distance from the bottom elliptical face to the top of the Elliptic Cylinder and is calculated using the lateral surface area, semi-major axis, and semi-minor axis of the Elliptic Cylinder is calculated using Height of Elliptic Cylinder = Lateral Surface Area of Elliptic Cylinder/(pi*(Semi Minor Axis of Elliptic Cylinder+Semi Major Axis of Elliptic Cylinder)). To calculate Height of Elliptic Cylinder, you need Lateral Surface Area of Elliptic Cylinder (LSA), Semi Minor Axis of Elliptic Cylinder (b) & Semi Major Axis of Elliptic Cylinder (a). With our tool, you need to enter the respective value for Lateral Surface Area of Elliptic Cylinder, Semi Minor Axis of Elliptic Cylinder & Semi Major Axis of Elliptic Cylinder 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 Height of Elliptic Cylinder?

In this formula, Height of Elliptic Cylinder uses Lateral Surface Area of Elliptic Cylinder, Semi Minor Axis of Elliptic Cylinder & Semi Major Axis of Elliptic Cylinder. We can use 3 other way(s) to calculate the same, which is/are as follows -

Height of Elliptic Cylinder = Volume of Elliptic Cylinder/(pi*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder)
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)
Height of Elliptic Cylinder = Volume of Elliptic Cylinder/(pi*Semi Minor Axis of Elliptic Cylinder*Semi Major Axis of Elliptic Cylinder)

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