Height of Oblique Cylinder given Surface to Volume Ratio Calculator

✖Lateral Surface Area of Oblique Cylinder is the total quantity of plane enclosed on the lateral curved surface of the Oblique Cylinder.ⓘ Lateral Surface Area of Oblique Cylinder [LSA]			+10% -10%
✖Radius of Oblique Cylinder is the distance between the center and any point on the circumference of the base circular face of the Oblique Cylinder.ⓘ Radius of Oblique Cylinder [r]			+10% -10%
✖Surface to Volume Ratio of Oblique Cylinder is the numerical ratio of the total surface area of Oblique Cylinder to the volume of the Oblique Cylinder.ⓘ Surface to Volume Ratio of Oblique Cylinder [R_A/V]			+10% -10%

✖Height of Oblique Cylinder is the vertical distance from the bottom circular face to the top of the Oblique Cylinder.ⓘ Height of Oblique Cylinder given Surface to Volume Ratio [h]

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Height of Oblique Cylinder given Surface to Volume Ratio Solution

STEP 0: Pre-Calculation Summary

Formula Used

Height of Oblique Cylinder = (Lateral Surface Area of Oblique Cylinder+(2*pi*Radius of Oblique Cylinder^2))/(pi*Radius of Oblique Cylinder^2*Surface to Volume Ratio of Oblique Cylinder)
h = (LSA+(2*pi*r^2))/(pi*r^2*R_A/V)
This formula uses 1 Constants, 4 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Height of Oblique Cylinder - (Measured in Meter) - Height of Oblique Cylinder is the vertical distance from the bottom circular face to the top of the Oblique Cylinder.
Lateral Surface Area of Oblique Cylinder - (Measured in Square Meter) - Lateral Surface Area of Oblique Cylinder is the total quantity of plane enclosed on the lateral curved surface of the Oblique Cylinder.
Radius of Oblique Cylinder - (Measured in Meter) - Radius of Oblique Cylinder is the distance between the center and any point on the circumference of the base circular face of the Oblique Cylinder.
Surface to Volume Ratio of Oblique Cylinder - (Measured in 1 per Meter) - Surface to Volume Ratio of Oblique Cylinder is the numerical ratio of the total surface area of Oblique Cylinder to the volume of the Oblique Cylinder.

STEP 1: Convert Input(s) to Base Unit

Lateral Surface Area of Oblique Cylinder: 360 Square Meter --> 360 Square Meter No Conversion Required
Radius of Oblique Cylinder: 5 Meter --> 5 Meter No Conversion Required
Surface to Volume Ratio of Oblique Cylinder: 0.7 1 per Meter --> 0.7 1 per Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

h = (LSA+(2*pi*r^2))/(pi*r^2*R_A/V) --> (360+(2*pi*5^2))/(pi*5^2*0.7)

Evaluating ... ...

h = 9.40523194435227

STEP 3: Convert Result to Output's Unit

9.40523194435227 Meter --> No Conversion Required

FINAL ANSWER

9.40523194435227 ≈ 9.405232 Meter <-- Height of Oblique Cylinder

(Calculation completed in 00.004 seconds)

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Created by Mona Gladys

St Joseph's College (SJC), Bengaluru

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Walchand College of Engineering (WCE), Sangli

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< Height of Oblique Cylinder Calculators

Height of Oblique Cylinder given Total Surface Area

LaTeX Go Height of Oblique Cylinder = (Total Surface Area of Oblique Cylinder-(2*pi*Radius of Oblique Cylinder^2))/(2*pi*Radius of Oblique Cylinder)*sin(Angle of Slope of Oblique Cylinder)

Height of Oblique Cylinder given Lateral Surface Area

LaTeX Go Height of Oblique Cylinder = Lateral Surface Area of Oblique Cylinder/(2*pi*Radius of Oblique Cylinder)*sin(Angle of Slope of Oblique Cylinder)

Height of Oblique Cylinder

LaTeX Go Height of Oblique Cylinder = Lateral Edge of Oblique Cylinder*sin(Angle of Slope of Oblique Cylinder)

Height of Oblique Cylinder given Volume

LaTeX Go Height of Oblique Cylinder = Volume of Oblique Cylinder/(pi*Radius of Oblique Cylinder^2)

Height of Oblique Cylinder given Surface to Volume Ratio Formula

LaTeX Go

What is an Oblique Cylinder?

An Oblique Cylinder is one that 'leans over' - where the sides are not perpendicular to the bases. Opposite of a 'right cylinder'. In an oblique cylinder, the bases (ends) remain parallel to each other, but the sides lean over at an angle that is not 90°. If they are at right angles to the bases, it is called a right cylinder.

How to Calculate Height of Oblique Cylinder given Surface to Volume Ratio?

Height of Oblique Cylinder given Surface to Volume Ratio calculator uses Height of Oblique Cylinder = (Lateral Surface Area of Oblique Cylinder+(2*pi*Radius of Oblique Cylinder^2))/(pi*Radius of Oblique Cylinder^2*Surface to Volume Ratio of Oblique Cylinder) to calculate the Height of Oblique Cylinder, Height of Oblique Cylinder given Surface to Volume Ratio formula is defined as the vertical distance from the bottom circular face to the top of the Oblique Cylinder, and is calculated using lateral surface area, radius, surface volume ratio and angle of slope of Oblique Cylinder. Height of Oblique Cylinder is denoted by h symbol.

How to calculate Height of Oblique Cylinder given Surface to Volume Ratio using this online calculator? To use this online calculator for Height of Oblique Cylinder given Surface to Volume Ratio, enter Lateral Surface Area of Oblique Cylinder (LSA), Radius of Oblique Cylinder (r) & Surface to Volume Ratio of Oblique Cylinder (R_A/V) and hit the calculate button. Here is how the Height of Oblique Cylinder given Surface to Volume Ratio calculation can be explained with given input values -> 9.405232 = (360+(2*pi*5^2))/(pi*5^2*0.7).

FAQ

What is Height of Oblique Cylinder given Surface to Volume Ratio?

Height of Oblique Cylinder given Surface to Volume Ratio formula is defined as the vertical distance from the bottom circular face to the top of the Oblique Cylinder, and is calculated using lateral surface area, radius, surface volume ratio and angle of slope of Oblique Cylinder and is represented as h = (LSA+(2*pi*r^2))/(pi*r^2*R_A/V) or Height of Oblique Cylinder = (Lateral Surface Area of Oblique Cylinder+(2*pi*Radius of Oblique Cylinder^2))/(pi*Radius of Oblique Cylinder^2*Surface to Volume Ratio of Oblique Cylinder). Lateral Surface Area of Oblique Cylinder is the total quantity of plane enclosed on the lateral curved surface of the Oblique Cylinder, Radius of Oblique Cylinder is the distance between the center and any point on the circumference of the base circular face of the Oblique Cylinder & Surface to Volume Ratio of Oblique Cylinder is the numerical ratio of the total surface area of Oblique Cylinder to the volume of the Oblique Cylinder.

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

Height of Oblique Cylinder given Surface to Volume Ratio formula is defined as the vertical distance from the bottom circular face to the top of the Oblique Cylinder, and is calculated using lateral surface area, radius, surface volume ratio and angle of slope of Oblique Cylinder is calculated using Height of Oblique Cylinder = (Lateral Surface Area of Oblique Cylinder+(2*pi*Radius of Oblique Cylinder^2))/(pi*Radius of Oblique Cylinder^2*Surface to Volume Ratio of Oblique Cylinder). To calculate Height of Oblique Cylinder given Surface to Volume Ratio, you need Lateral Surface Area of Oblique Cylinder (LSA), Radius of Oblique Cylinder (r) & Surface to Volume Ratio of Oblique Cylinder (R_A/V). With our tool, you need to enter the respective value for Lateral Surface Area of Oblique Cylinder, Radius of Oblique Cylinder & Surface to Volume Ratio of Oblique 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 Oblique Cylinder?

In this formula, Height of Oblique Cylinder uses Lateral Surface Area of Oblique Cylinder, Radius of Oblique Cylinder & Surface to Volume Ratio of Oblique Cylinder. We can use 3 other way(s) to calculate the same, which is/are as follows -

Height of Oblique Cylinder = Lateral Edge of Oblique Cylinder*sin(Angle of Slope of Oblique Cylinder)
Height of Oblique Cylinder = Lateral Surface Area of Oblique Cylinder/(2*pi*Radius of Oblique Cylinder)*sin(Angle of Slope of Oblique Cylinder)
Height of Oblique Cylinder = (Total Surface Area of Oblique Cylinder-(2*pi*Radius of Oblique Cylinder^2))/(2*pi*Radius of Oblique Cylinder)*sin(Angle of Slope of Oblique Cylinder)

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