Induced Drag Factor given Span Efficiency Factor Solution

STEP 0: Pre-Calculation Summary
Formula Used
Induced Drag Factor = Span Efficiency Factor^(-1)-1
δ = espan^(-1)-1
This formula uses 2 Variables
Variables Used
Induced Drag Factor - The Induced Drag Factor is a function of the Fourier series constants which has been used for the general circulation distribution expression for the finite wing.
Span Efficiency Factor - Span efficiency factor represents the change in drag with lift of a three-dimensional wing or airplane, as compared with an ideal wing having the same aspect ratio and an elliptical lift distribution.
STEP 1: Convert Input(s) to Base Unit
Span Efficiency Factor: 0.95 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
δ = espan^(-1)-1 --> 0.95^(-1)-1
Evaluating ... ...
δ = 0.0526315789473684
STEP 3: Convert Result to Output's Unit
0.0526315789473684 --> No Conversion Required
FINAL ANSWER
0.0526315789473684 0.052632 <-- Induced Drag Factor
(Calculation completed in 00.004 seconds)

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Shri Govindram Seksaria Institute of Technology and Science (SGSITS), Indore
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10+ General Lift Distribution Calculators

Induced Lift Slope Factor given Lift Curve Slope of Finite Wing
Go Induced Lift Slope Factor of Finite Wing = (pi*Wing Aspect Ratio GLD*(2D Lift Curve Slope/Lift Curve Slope-1))/2D Lift Curve Slope-1
Lift Coefficient given Induced Drag Factor
Go Lift Coefficient GLD = sqrt((pi*Wing Aspect Ratio GLD*Induced Drag Coefficient GLD)/(1+Induced Drag Factor))
Lift Coefficient given Span Efficiency Factor
Go Lift Coefficient GLD = sqrt(pi*Span Efficiency Factor*Wing Aspect Ratio GLD*Induced Drag Coefficient GLD)
Induced Drag Coefficient given Induced Drag Factor
Go Induced Drag Coefficient GLD = ((1+Induced Drag Factor)*Lift Coefficient GLD^2)/(pi*Wing Aspect Ratio GLD)
Aspect Ratio given Induced Drag Factor
Go Wing Aspect Ratio GLD = ((1+Induced Drag Factor)*Lift Coefficient GLD^2)/(pi*Induced Drag Coefficient GLD)
Induced Drag Coefficient given Span Efficiency Factor
Go Induced Drag Coefficient GLD = Lift Coefficient GLD^2/(pi*Span Efficiency Factor*Wing Aspect Ratio GLD)
Span Efficiency Factor given Induced Drag Coefficient
Go Span Efficiency Factor = Lift Coefficient GLD^2/(pi*Wing Aspect Ratio GLD*Induced Drag Coefficient GLD)
Induced Drag Factor given Induced Drag Coefficient
Go Induced Drag Factor = (pi*Wing Aspect Ratio GLD*Induced Drag Coefficient GLD)/Lift Coefficient GLD^2-1
Span Efficiency Factor
Go Span Efficiency Factor = (1+Induced Drag Factor)^(-1)
Induced Drag Factor given Span Efficiency Factor
Go Induced Drag Factor = Span Efficiency Factor^(-1)-1

Induced Drag Factor given Span Efficiency Factor Formula

Induced Drag Factor = Span Efficiency Factor^(-1)-1
δ = espan^(-1)-1

Do winglets reduce induced drag?

Winglets increase an aircraft's operating efficiency by reducing what is called induced drag at the tips of the wings. An aircraft's wing is shaped to generate negative pressure on the upper surface and positive pressure on the lower surface as the aircraft moves forward.

How to Calculate Induced Drag Factor given Span Efficiency Factor?

Induced Drag Factor given Span Efficiency Factor calculator uses Induced Drag Factor = Span Efficiency Factor^(-1)-1 to calculate the Induced Drag Factor, The Induced drag factor given span efficiency factor formula calculates induced drag factor which is a function of the Fourier series constants that has been used for the general circulation distribution expression for the finite wing. Induced Drag Factor is denoted by δ symbol.

How to calculate Induced Drag Factor given Span Efficiency Factor using this online calculator? To use this online calculator for Induced Drag Factor given Span Efficiency Factor, enter Span Efficiency Factor (espan) and hit the calculate button. Here is how the Induced Drag Factor given Span Efficiency Factor calculation can be explained with given input values -> 0.25 = 0.95^(-1)-1.

FAQ

What is Induced Drag Factor given Span Efficiency Factor?
The Induced drag factor given span efficiency factor formula calculates induced drag factor which is a function of the Fourier series constants that has been used for the general circulation distribution expression for the finite wing and is represented as δ = espan^(-1)-1 or Induced Drag Factor = Span Efficiency Factor^(-1)-1. Span efficiency factor represents the change in drag with lift of a three-dimensional wing or airplane, as compared with an ideal wing having the same aspect ratio and an elliptical lift distribution.
How to calculate Induced Drag Factor given Span Efficiency Factor?
The Induced drag factor given span efficiency factor formula calculates induced drag factor which is a function of the Fourier series constants that has been used for the general circulation distribution expression for the finite wing is calculated using Induced Drag Factor = Span Efficiency Factor^(-1)-1. To calculate Induced Drag Factor given Span Efficiency Factor, you need Span Efficiency Factor (espan). With our tool, you need to enter the respective value for Span Efficiency Factor 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 Induced Drag Factor?
In this formula, Induced Drag Factor uses Span Efficiency Factor. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Induced Drag Factor = (pi*Wing Aspect Ratio GLD*Induced Drag Coefficient GLD)/Lift Coefficient GLD^2-1
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