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Edge Length of Snub Dodecahedron is the length of any edge of the Snub Dodecahedron. Check FAQs
le=((203)+(325+(105)))6(3-(([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)2)32RA/V(((12((3[phi])+1))((([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)2)-(((36[phi])+7)(([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)))-((53[phi])+6))
le - Edge Length of Snub Dodecahedron?RA/V - Surface to Volume Ratio of Snub Dodecahedron?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?[phi] - Golden ratio?

Edge Length of Snub Dodecahedron given Surface to Volume Ratio Example

With values
With units
Only example

Here is how the Edge Length of Snub Dodecahedron given Surface to Volume Ratio equation looks like with Values.

Here is how the Edge Length of Snub Dodecahedron given Surface to Volume Ratio equation looks like with Units.

Here is how the Edge Length of Snub Dodecahedron given Surface to Volume Ratio equation looks like.

7.3487Edit=((203)+(325+(105)))6(3-((1.6182+1.618-5272)13+(1.6182-1.618-5272)13)2)320.2Edit(((12((31.618)+1))(((1.6182+1.618-5272)13+(1.6182-1.618-5272)13)2)-(((361.618)+7)((1.6182+1.618-5272)13+(1.6182-1.618-5272)13)))-((531.618)+6))
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Edge Length of Snub Dodecahedron given Surface to Volume Ratio Solution

Follow our step by step solution on how to calculate Edge Length of Snub Dodecahedron given Surface to Volume Ratio?

FIRST Step Consider the formula
le=((203)+(325+(105)))6(3-(([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)2)32RA/V(((12((3[phi])+1))((([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)2)-(((36[phi])+7)(([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)))-((53[phi])+6))
Next Step Substitute values of Variables
le=((203)+(325+(105)))6(3-(([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)2)320.2m⁻¹(((12((3[phi])+1))((([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)2)-(((36[phi])+7)(([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)))-((53[phi])+6))
Next Step Substitute values of Constants
le=((203)+(325+(105)))6(3-((1.6182+1.618-5272)13+(1.6182-1.618-5272)13)2)320.2m⁻¹(((12((31.618)+1))(((1.6182+1.618-5272)13+(1.6182-1.618-5272)13)2)-(((361.618)+7)((1.6182+1.618-5272)13+(1.6182-1.618-5272)13)))-((531.618)+6))
Next Step Prepare to Evaluate
le=((203)+(325+(105)))6(3-((1.6182+1.618-5272)13+(1.6182-1.618-5272)13)2)320.2(((12((31.618)+1))(((1.6182+1.618-5272)13+(1.6182-1.618-5272)13)2)-(((361.618)+7)((1.6182+1.618-5272)13+(1.6182-1.618-5272)13)))-((531.618)+6))
Next Step Evaluate
le=7.3487066250211m
LAST Step Rounding Answer
le=7.3487m

Edge Length of Snub Dodecahedron given Surface to Volume Ratio Formula Elements

Variables
Constants
Functions
Edge Length of Snub Dodecahedron
Edge Length of Snub Dodecahedron is the length of any edge of the Snub Dodecahedron.
Symbol: le
Measurement: LengthUnit: m
Note: Value should be greater than 0.
Surface to Volume Ratio of Snub Dodecahedron
Surface to Volume Ratio of Snub Dodecahedron is the numerical ratio of the total surface area of a Snub Dodecahedron to the volume of the Snub Dodecahedron.
Symbol: RA/V
Measurement: Reciprocal LengthUnit: m⁻¹
Note: Value should be greater than 0.
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
Golden ratio
The Golden ratio occurs when the ratio of two numbers is the same as the ratio of their sum to the larger of the two numbers.
Symbol: [phi]
Value: 1.61803398874989484820458683436563811
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 Edge Length of Snub Dodecahedron

​Go Edge Length of Snub Dodecahedron given Total Surface Area
le=TSA(203)+(325+(105))
​Go Edge Length of Snub Dodecahedron given Volume
le=(V6(3-(([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)2)32((12((3[phi])+1))((([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)2)-(((36[phi])+7)(([phi]2+[phi]-5272)13+([phi]2-[phi]-5272)13)))-((53[phi])+6))13
​Go Edge Length of Snub Dodecahedron given Circumsphere Radius
le=2rc2-0.943151259241-0.94315125924
​Go Edge Length of Snub Dodecahedron given Midsphere Radius
le=2rm11-0.94315125924

How to Evaluate Edge Length of Snub Dodecahedron given Surface to Volume Ratio?

Edge Length of Snub Dodecahedron given Surface to Volume Ratio evaluator uses Edge Length of Snub Dodecahedron = (((20*sqrt(3))+(3*sqrt(25+(10*sqrt(5)))))*6*(3-(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)^(3/2))/(Surface to Volume Ratio of Snub Dodecahedron*(((12*((3*[phi])+1))*((([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)-(((36*[phi])+7)*(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))))-((53*[phi])+6))) to evaluate the Edge Length of Snub Dodecahedron, Edge Length of Snub Dodecahedron given Surface to Volume Ratio formula is defined as the length of any edge of the Snub Dodecahedron, and calculated using the surface to volume of the Snub Dodecahedron. Edge Length of Snub Dodecahedron is denoted by le symbol.

How to evaluate Edge Length of Snub Dodecahedron given Surface to Volume Ratio using this online evaluator? To use this online evaluator for Edge Length of Snub Dodecahedron given Surface to Volume Ratio, enter Surface to Volume Ratio of Snub Dodecahedron (RA/V) and hit the calculate button.

FAQs on Edge Length of Snub Dodecahedron given Surface to Volume Ratio

What is the formula to find Edge Length of Snub Dodecahedron given Surface to Volume Ratio?
The formula of Edge Length of Snub Dodecahedron given Surface to Volume Ratio is expressed as Edge Length of Snub Dodecahedron = (((20*sqrt(3))+(3*sqrt(25+(10*sqrt(5)))))*6*(3-(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)^(3/2))/(Surface to Volume Ratio of Snub Dodecahedron*(((12*((3*[phi])+1))*((([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)-(((36*[phi])+7)*(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))))-((53*[phi])+6))). Here is an example- 7.348707 = (((20*sqrt(3))+(3*sqrt(25+(10*sqrt(5)))))*6*(3-(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)^(3/2))/(0.2*(((12*((3*[phi])+1))*((([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)-(((36*[phi])+7)*(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))))-((53*[phi])+6))).
How to calculate Edge Length of Snub Dodecahedron given Surface to Volume Ratio?
With Surface to Volume Ratio of Snub Dodecahedron (RA/V) we can find Edge Length of Snub Dodecahedron given Surface to Volume Ratio using the formula - Edge Length of Snub Dodecahedron = (((20*sqrt(3))+(3*sqrt(25+(10*sqrt(5)))))*6*(3-(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)^(3/2))/(Surface to Volume Ratio of Snub Dodecahedron*(((12*((3*[phi])+1))*((([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)-(((36*[phi])+7)*(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))))-((53*[phi])+6))). This formula also uses Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio, Golden ratio constant(s) and Square Root (sqrt) function(s).
What are the other ways to Calculate Edge Length of Snub Dodecahedron?
Here are the different ways to Calculate Edge Length of Snub Dodecahedron-
  • Edge Length of Snub Dodecahedron=sqrt(Total Surface Area of Snub Dodecahedron/((20*sqrt(3))+(3*sqrt(25+(10*sqrt(5))))))OpenImg
  • Edge Length of Snub Dodecahedron=((Volume of Snub Dodecahedron*6*(3-(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)^(3/2))/(((12*((3*[phi])+1))*((([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))^2)-(((36*[phi])+7)*(([phi]/2+sqrt([phi]-5/27)/2)^(1/3)+([phi]/2-sqrt([phi]-5/27)/2)^(1/3))))-((53*[phi])+6)))^(1/3)OpenImg
  • Edge Length of Snub Dodecahedron=(2*Circumsphere Radius of Snub Dodecahedron)/sqrt((2-0.94315125924)/(1-0.94315125924))OpenImg
Can the Edge Length of Snub Dodecahedron given Surface to Volume Ratio be negative?
No, the Edge Length of Snub Dodecahedron given Surface to Volume Ratio, measured in Length cannot be negative.
Which unit is used to measure Edge Length of Snub Dodecahedron given Surface to Volume Ratio?
Edge Length of Snub Dodecahedron 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 Edge Length of Snub Dodecahedron given Surface to Volume Ratio can be measured.
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