Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C Solution

STEP 0: Pre-Calculation Summary
Formula Used
Surface to Volume Ratio of Parallelepiped = (2*(((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*sin(Angle Gamma of Parallelepiped))+((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side C of Parallelepiped*sin(Angle Beta of Parallelepiped))+(Side B of Parallelepiped*Side C of Parallelepiped*sin(Angle Alpha of Parallelepiped))))/((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))
RA/V = (2*(((P/4-Sb-Sc)*Sb*sin(∠γ))+((P/4-Sb-Sc)*Sc*sin(∠β))+(Sb*Sc*sin(∠α))))/((P/4-Sb-Sc)*Sb*Sc*sqrt(1+(2*cos(∠α)*cos(∠β)*cos(∠γ))-(cos(∠α)^2+cos(∠β)^2+cos(∠γ)^2)))
This formula uses 3 Functions, 7 Variables
Functions Used
sin - Sine is a trigonometric function that describes the ratio of the length of the opposite side of a right triangle to the length of the hypotenuse., sin(Angle)
cos - Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle., cos(Angle)
sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)
Variables Used
Surface to Volume Ratio of Parallelepiped - (Measured in 1 per Meter) - Surface to Volume Ratio of Parallelepiped is the numerical ratio of the total surface area of Parallelepiped to the volume of the Parallelepiped.
Perimeter of Parallelepiped - (Measured in Meter) - Perimeter of Parallelepiped is the total distance around the edge of the Parallelepiped.
Side B of Parallelepiped - (Measured in Meter) - Side B of Parallelepiped is the length of any one out of the three sides from any fixed vertex of the Parallelepiped.
Side C of Parallelepiped - (Measured in Meter) - Side C of Parallelepiped is the length of any one out of the three sides from any fixed vertex of the Parallelepiped.
Angle Gamma of Parallelepiped - (Measured in Radian) - Angle Gamma of Parallelepiped is the angle formed by side A and side B at any of the two sharp tips of the Parallelepiped.
Angle Beta of Parallelepiped - (Measured in Radian) - Angle Beta of Parallelepiped is the angle formed by side A and side C at any of the two sharp tips of the Parallelepiped.
Angle Alpha of Parallelepiped - (Measured in Radian) - Angle Alpha of Parallelepiped is the angle formed by side B and side C at any of the two sharp tips of the Parallelepiped.
STEP 1: Convert Input(s) to Base Unit
Perimeter of Parallelepiped: 240 Meter --> 240 Meter No Conversion Required
Side B of Parallelepiped: 20 Meter --> 20 Meter No Conversion Required
Side C of Parallelepiped: 10 Meter --> 10 Meter No Conversion Required
Angle Gamma of Parallelepiped: 75 Degree --> 1.3089969389955 Radian (Check conversion ​here)
Angle Beta of Parallelepiped: 60 Degree --> 1.0471975511964 Radian (Check conversion ​here)
Angle Alpha of Parallelepiped: 45 Degree --> 0.785398163397301 Radian (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
RA/V = (2*(((P/4-Sb-Sc)*Sb*sin(∠γ))+((P/4-Sb-Sc)*Sc*sin(∠β))+(Sb*Sc*sin(∠α))))/((P/4-Sb-Sc)*Sb*Sc*sqrt(1+(2*cos(∠α)*cos(∠β)*cos(∠γ))-(cos(∠α)^2+cos(∠β)^2+cos(∠γ)^2))) --> (2*(((240/4-20-10)*20*sin(1.3089969389955))+((240/4-20-10)*10*sin(1.0471975511964))+(20*10*sin(0.785398163397301))))/((240/4-20-10)*20*10*sqrt(1+(2*cos(0.785398163397301)*cos(1.0471975511964)*cos(1.3089969389955))-(cos(0.785398163397301)^2+cos(1.0471975511964)^2+cos(1.3089969389955)^2)))
Evaluating ... ...
RA/V = 0.540376822129579
STEP 3: Convert Result to Output's Unit
0.540376822129579 1 per Meter --> No Conversion Required
FINAL ANSWER
0.540376822129579 0.540377 1 per Meter <-- Surface to Volume Ratio of Parallelepiped
(Calculation completed in 00.020 seconds)

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Surface to Volume Ratio of Parallelepiped Calculators

Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C
​ LaTeX ​ Go Surface to Volume Ratio of Parallelepiped = (2*((Volume of Parallelepiped*sin(Angle Gamma of Parallelepiped))/(Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))+(Side A of Parallelepiped*Side C of Parallelepiped*sin(Angle Beta of Parallelepiped))+(Volume of Parallelepiped*sin(Angle Alpha of Parallelepiped))/(Side A of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))))/Volume of Parallelepiped
Surface to Volume Ratio of Parallelepiped given Volume, Side B and Side C
​ LaTeX ​ Go Surface to Volume Ratio of Parallelepiped = (2*((Volume of Parallelepiped*sin(Angle Gamma of Parallelepiped))/(Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))+(Volume of Parallelepiped*sin(Angle Beta of Parallelepiped))/(Side B of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))+(Side B of Parallelepiped*Side C of Parallelepiped*sin(Angle Alpha of Parallelepiped))))/Volume of Parallelepiped
Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side B
​ LaTeX ​ Go Surface to Volume Ratio of Parallelepiped = (2*((Side A of Parallelepiped*Side B of Parallelepiped*sin(Angle Gamma of Parallelepiped))+(Volume of Parallelepiped*sin(Angle Beta of Parallelepiped))/(Side B of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))+(Volume of Parallelepiped*sin(Angle Alpha of Parallelepiped))/(Side A of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))))/Volume of Parallelepiped
Surface to Volume Ratio of Parallelepiped
​ LaTeX ​ Go Surface to Volume Ratio of Parallelepiped = (2*((Side A of Parallelepiped*Side B of Parallelepiped*sin(Angle Gamma of Parallelepiped))+(Side A of Parallelepiped*Side C of Parallelepiped*sin(Angle Beta of Parallelepiped))+(Side B of Parallelepiped*Side C of Parallelepiped*sin(Angle Alpha of Parallelepiped))))/(Side A of Parallelepiped*Side B of Parallelepiped*Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))

Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C Formula

​LaTeX ​Go
Surface to Volume Ratio of Parallelepiped = (2*(((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*sin(Angle Gamma of Parallelepiped))+((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side C of Parallelepiped*sin(Angle Beta of Parallelepiped))+(Side B of Parallelepiped*Side C of Parallelepiped*sin(Angle Alpha of Parallelepiped))))/((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))
RA/V = (2*(((P/4-Sb-Sc)*Sb*sin(∠γ))+((P/4-Sb-Sc)*Sc*sin(∠β))+(Sb*Sc*sin(∠α))))/((P/4-Sb-Sc)*Sb*Sc*sqrt(1+(2*cos(∠α)*cos(∠β)*cos(∠γ))-(cos(∠α)^2+cos(∠β)^2+cos(∠γ)^2)))

What is a Parallelepiped?

A Parallelepiped is a three-dimensional figure formed by six parallelograms (the term rhomboid is also sometimes used with this meaning). By analogy, it relates to a parallelogram just as a cube relates to a square. In Euclidean geometry, the four concepts—parallelepiped and cube in three dimensions, parallelogram and square in two dimensions—are defined, but in the context of a more general affine geometry, in which angles are not differentiated, only parallelograms and parallelepipeds exist.

How to Calculate Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C?

Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C calculator uses Surface to Volume Ratio of Parallelepiped = (2*(((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*sin(Angle Gamma of Parallelepiped))+((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side C of Parallelepiped*sin(Angle Beta of Parallelepiped))+(Side B of Parallelepiped*Side C of Parallelepiped*sin(Angle Alpha of Parallelepiped))))/((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2))) to calculate the Surface to Volume Ratio of Parallelepiped, The Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C formula is defined as the numerical ratio of the total surface area of Parallelepiped to the volume of the Parallelepiped, calculated using perimeter, side B and side B of Parallelepiped. Surface to Volume Ratio of Parallelepiped is denoted by RA/V symbol.

How to calculate Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C using this online calculator? To use this online calculator for Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C, enter Perimeter of Parallelepiped (P), Side B of Parallelepiped (Sb), Side C of Parallelepiped (Sc), Angle Gamma of Parallelepiped (∠γ), Angle Beta of Parallelepiped (∠β) & Angle Alpha of Parallelepiped (∠α) and hit the calculate button. Here is how the Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C calculation can be explained with given input values -> 0.540377 = (2*(((240/4-20-10)*20*sin(1.3089969389955))+((240/4-20-10)*10*sin(1.0471975511964))+(20*10*sin(0.785398163397301))))/((240/4-20-10)*20*10*sqrt(1+(2*cos(0.785398163397301)*cos(1.0471975511964)*cos(1.3089969389955))-(cos(0.785398163397301)^2+cos(1.0471975511964)^2+cos(1.3089969389955)^2))).

FAQ

What is Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C?
The Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C formula is defined as the numerical ratio of the total surface area of Parallelepiped to the volume of the Parallelepiped, calculated using perimeter, side B and side B of Parallelepiped and is represented as RA/V = (2*(((P/4-Sb-Sc)*Sb*sin(∠γ))+((P/4-Sb-Sc)*Sc*sin(∠β))+(Sb*Sc*sin(∠α))))/((P/4-Sb-Sc)*Sb*Sc*sqrt(1+(2*cos(∠α)*cos(∠β)*cos(∠γ))-(cos(∠α)^2+cos(∠β)^2+cos(∠γ)^2))) or Surface to Volume Ratio of Parallelepiped = (2*(((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*sin(Angle Gamma of Parallelepiped))+((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side C of Parallelepiped*sin(Angle Beta of Parallelepiped))+(Side B of Parallelepiped*Side C of Parallelepiped*sin(Angle Alpha of Parallelepiped))))/((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2))). Perimeter of Parallelepiped is the total distance around the edge of the Parallelepiped, Side B of Parallelepiped is the length of any one out of the three sides from any fixed vertex of the Parallelepiped, Side C of Parallelepiped is the length of any one out of the three sides from any fixed vertex of the Parallelepiped, Angle Gamma of Parallelepiped is the angle formed by side A and side B at any of the two sharp tips of the Parallelepiped, Angle Beta of Parallelepiped is the angle formed by side A and side C at any of the two sharp tips of the Parallelepiped & Angle Alpha of Parallelepiped is the angle formed by side B and side C at any of the two sharp tips of the Parallelepiped.
How to calculate Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C?
The Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C formula is defined as the numerical ratio of the total surface area of Parallelepiped to the volume of the Parallelepiped, calculated using perimeter, side B and side B of Parallelepiped is calculated using Surface to Volume Ratio of Parallelepiped = (2*(((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*sin(Angle Gamma of Parallelepiped))+((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side C of Parallelepiped*sin(Angle Beta of Parallelepiped))+(Side B of Parallelepiped*Side C of Parallelepiped*sin(Angle Alpha of Parallelepiped))))/((Perimeter of Parallelepiped/4-Side B of Parallelepiped-Side C of Parallelepiped)*Side B of Parallelepiped*Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2))). To calculate Surface to Volume Ratio of Parallelepiped given Perimeter, Side B and Side C, you need Perimeter of Parallelepiped (P), Side B of Parallelepiped (Sb), Side C of Parallelepiped (Sc), Angle Gamma of Parallelepiped (∠γ), Angle Beta of Parallelepiped (∠β) & Angle Alpha of Parallelepiped (∠α). With our tool, you need to enter the respective value for Perimeter of Parallelepiped, Side B of Parallelepiped, Side C of Parallelepiped, Angle Gamma of Parallelepiped, Angle Beta of Parallelepiped & Angle Alpha of Parallelepiped 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 Surface to Volume Ratio of Parallelepiped?
In this formula, Surface to Volume Ratio of Parallelepiped uses Perimeter of Parallelepiped, Side B of Parallelepiped, Side C of Parallelepiped, Angle Gamma of Parallelepiped, Angle Beta of Parallelepiped & Angle Alpha of Parallelepiped. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Surface to Volume Ratio of Parallelepiped = (2*((Side A of Parallelepiped*Side B of Parallelepiped*sin(Angle Gamma of Parallelepiped))+(Side A of Parallelepiped*Side C of Parallelepiped*sin(Angle Beta of Parallelepiped))+(Side B of Parallelepiped*Side C of Parallelepiped*sin(Angle Alpha of Parallelepiped))))/(Side A of Parallelepiped*Side B of Parallelepiped*Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))
  • Surface to Volume Ratio of Parallelepiped = (2*((Volume of Parallelepiped*sin(Angle Gamma of Parallelepiped))/(Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))+(Side A of Parallelepiped*Side C of Parallelepiped*sin(Angle Beta of Parallelepiped))+(Volume of Parallelepiped*sin(Angle Alpha of Parallelepiped))/(Side A of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))))/Volume of Parallelepiped
  • Surface to Volume Ratio of Parallelepiped = (2*((Volume of Parallelepiped*sin(Angle Gamma of Parallelepiped))/(Side C of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))+(Volume of Parallelepiped*sin(Angle Beta of Parallelepiped))/(Side B of Parallelepiped*sqrt(1+(2*cos(Angle Alpha of Parallelepiped)*cos(Angle Beta of Parallelepiped)*cos(Angle Gamma of Parallelepiped))-(cos(Angle Alpha of Parallelepiped)^2+cos(Angle Beta of Parallelepiped)^2+cos(Angle Gamma of Parallelepiped)^2)))+(Side B of Parallelepiped*Side C of Parallelepiped*sin(Angle Alpha of Parallelepiped))))/Volume of Parallelepiped
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