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Surface to Volume Ratio of Parallelepiped is the numerical ratio of the total surface area of Parallelepiped to the volume of the Parallelepiped. Check FAQs
RA/V=2(Vsin(∠γ)Sc1+(2cos(∠α)cos(∠β)cos(∠γ))-(cos(∠α)2+cos(∠β)2+cos(∠γ)2)+(SaScsin(∠β))+Vsin(∠α)Sa1+(2cos(∠α)cos(∠β)cos(∠γ))-(cos(∠α)2+cos(∠β)2+cos(∠γ)2))V
RA/V - Surface to Volume Ratio of Parallelepiped?V - Volume of Parallelepiped?∠γ - Angle Gamma of Parallelepiped?Sc - Side C of Parallelepiped?∠α - Angle Alpha of Parallelepiped?∠β - Angle Beta of Parallelepiped?Sa - Side A of Parallelepiped?

Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C Example

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Here is how the Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C equation looks like with Values.

Here is how the Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C equation looks like with Units.

Here is how the Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C equation looks like.

0.5404Edit=2(3630Editsin(75Edit)10Edit1+(2cos(45Edit)cos(60Edit)cos(75Edit))-(cos(45Edit)2+cos(60Edit)2+cos(75Edit)2)+(30Edit10Editsin(60Edit))+3630Editsin(45Edit)30Edit1+(2cos(45Edit)cos(60Edit)cos(75Edit))-(cos(45Edit)2+cos(60Edit)2+cos(75Edit)2))3630Edit
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Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C Solution

Follow our step by step solution on how to calculate Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C?

FIRST Step Consider the formula
RA/V=2(Vsin(∠γ)Sc1+(2cos(∠α)cos(∠β)cos(∠γ))-(cos(∠α)2+cos(∠β)2+cos(∠γ)2)+(SaScsin(∠β))+Vsin(∠α)Sa1+(2cos(∠α)cos(∠β)cos(∠γ))-(cos(∠α)2+cos(∠β)2+cos(∠γ)2))V
Next Step Substitute values of Variables
RA/V=2(3630sin(75°)10m1+(2cos(45°)cos(60°)cos(75°))-(cos(45°)2+cos(60°)2+cos(75°)2)+(30m10msin(60°))+3630sin(45°)30m1+(2cos(45°)cos(60°)cos(75°))-(cos(45°)2+cos(60°)2+cos(75°)2))3630
Next Step Convert Units
RA/V=2(3630sin(1.309rad)10m1+(2cos(0.7854rad)cos(1.0472rad)cos(1.309rad))-(cos(0.7854rad)2+cos(1.0472rad)2+cos(1.309rad)2)+(30m10msin(1.0472rad))+3630sin(0.7854rad)30m1+(2cos(0.7854rad)cos(1.0472rad)cos(1.309rad))-(cos(0.7854rad)2+cos(1.0472rad)2+cos(1.309rad)2))3630
Next Step Prepare to Evaluate
RA/V=2(3630sin(1.309)101+(2cos(0.7854)cos(1.0472)cos(1.309))-(cos(0.7854)2+cos(1.0472)2+cos(1.309)2)+(3010sin(1.0472))+3630sin(0.7854)301+(2cos(0.7854)cos(1.0472)cos(1.309))-(cos(0.7854)2+cos(1.0472)2+cos(1.309)2))3630
Next Step Evaluate
RA/V=0.540376901085287m⁻¹
LAST Step Rounding Answer
RA/V=0.5404m⁻¹

Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C Formula Elements

Variables
Functions
Surface to Volume Ratio of Parallelepiped
Surface to Volume Ratio of Parallelepiped is the numerical ratio of the total surface area of Parallelepiped to the volume of the Parallelepiped.
Symbol: RA/V
Measurement: Reciprocal LengthUnit: m⁻¹
Note: Value should be greater than 0.
Formulas to find Surface to Volume Ratio of ParallelepipedOpen Variable
Volume of Parallelepiped
Volume of Parallelepiped is the total quantity of three-dimensional space enclosed by the surface of the Parallelepiped.
Symbol: V
Measurement: VolumeUnit:
Note: Value should be greater than 0.
Formulas to find Volume of ParallelepipedOpen Variable
Angle Gamma of 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.
Symbol: ∠γ
Measurement: AngleUnit: °
Note: Value should be between 0 to 180.
Formulas to find Angle Gamma of ParallelepipedOpen Variable
Side C of Parallelepiped
Side C of Parallelepiped is the length of any one out of the three sides from any fixed vertex of the Parallelepiped.
Symbol: Sc
Measurement: LengthUnit: m
Note: Value should be greater than 0.
Formulas to find Side C of ParallelepipedOpen Variable
Angle Alpha of 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.
Symbol: ∠α
Measurement: AngleUnit: °
Note: Value should be between 0 to 180.
Formulas to find Angle Alpha of ParallelepipedOpen Variable
Angle Beta of 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.
Symbol: ∠β
Measurement: AngleUnit: °
Note: Value should be between 0 to 180.
Formulas to find Angle Beta of ParallelepipedOpen Variable
Side A of Parallelepiped
Side A of Parallelepiped is the length of any one out of the three sides from any fixed vertex of the Parallelepiped.
Symbol: Sa
Measurement: LengthUnit: m
Note: Value should be greater than 0.
Formulas to find Side A of ParallelepipedOpen Variable
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.
Syntax: sin(Angle)
cos
Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle.
Syntax: 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.
Syntax: sqrt(Number)

Other Formulas to find Surface to Volume Ratio of Parallelepiped

​Go Surface to Volume Ratio of Parallelepiped
RA/V=2((SaSbsin(∠γ))+(SaScsin(∠β))+(SbScsin(∠α)))SaSbSc1+(2cos(∠α)cos(∠β)cos(∠γ))-(cos(∠α)2+cos(∠β)2+cos(∠γ)2)
​Go Surface to Volume Ratio of Parallelepiped given Volume, Side B and Side C
RA/V=2(Vsin(∠γ)Sc1+(2cos(∠α)cos(∠β)cos(∠γ))-(cos(∠α)2+cos(∠β)2+cos(∠γ)2)+Vsin(∠β)Sb1+(2cos(∠α)cos(∠β)cos(∠γ))-(cos(∠α)2+cos(∠β)2+cos(∠γ)2)+(SbScsin(∠α)))V

How to Evaluate Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C?

Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C evaluator uses 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 to evaluate the Surface to Volume Ratio of Parallelepiped, The Surface to Volume Ratio of Parallelepiped given Volume, Side A 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 volume, side A and side C of Parallelepiped. Surface to Volume Ratio of Parallelepiped is denoted by RA/V symbol.

How to evaluate Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C using this online evaluator? To use this online evaluator for Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C, enter Volume of Parallelepiped (V), Angle Gamma of Parallelepiped (∠γ), Side C of Parallelepiped (Sc), Angle Alpha of Parallelepiped (∠α), Angle Beta of Parallelepiped (∠β) & Side A of Parallelepiped (Sa) and hit the calculate button.

FAQs on Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C

What is the formula to find Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C?
The formula of Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C is expressed as 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. Here is an example- 0.540377 = (2*((3630*sin(1.3089969389955))/(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)))+(30*10*sin(1.0471975511964))+(3630*sin(0.785398163397301))/(30*sqrt(1+(2*cos(0.785398163397301)*cos(1.0471975511964)*cos(1.3089969389955))-(cos(0.785398163397301)^2+cos(1.0471975511964)^2+cos(1.3089969389955)^2)))))/3630.
How to calculate Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C?
With Volume of Parallelepiped (V), Angle Gamma of Parallelepiped (∠γ), Side C of Parallelepiped (Sc), Angle Alpha of Parallelepiped (∠α), Angle Beta of Parallelepiped (∠β) & Side A of Parallelepiped (Sa) we can find Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C using the formula - 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. This formula also uses SineCosine, Square Root Function function(s).
What are the other ways to Calculate Surface to Volume Ratio of Parallelepiped?
Here are the different ways to Calculate Surface to Volume Ratio of Parallelepiped-
  • 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)))OpenImg
  • 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 ParallelepipedOpenImg
  • 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 ParallelepipedOpenImg
Can the Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C be negative?
No, the Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C, measured in Reciprocal Length cannot be negative.
Which unit is used to measure Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C?
Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C is usually measured using the 1 per Meter[m⁻¹] for Reciprocal Length. 1 per Kilometer[m⁻¹], 1 per Mile[m⁻¹], 1 per Yard[m⁻¹] are the few other units in which Surface to Volume Ratio of Parallelepiped given Volume, Side A and Side C can be measured.
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