Reduction Factor using Slant Length Solution

STEP 0: Pre-Calculation Summary
Formula Used
Reduction Factor = Effective Path Length/Slant Length
rp = Leff/Lslant
This formula uses 3 Variables
Variables Used
Reduction Factor - The reduction factor represents the factor by which the effective path length is reduced compared to the straight-line distance between the observer and the satellite.
Effective Path Length - (Measured in Meter) - Effective Path Length refers to the total distance that a radio signal travels between a transmitter and a receiver, taking into account the effects of multipath propagation.
Slant Length - (Measured in Meter) - Slant Length refers to the length of path followed by the radio wave signal as it travels from the transmitting satellite to the receiving satellite ground station.
STEP 1: Convert Input(s) to Base Unit
Effective Path Length: 12 Kilometer --> 12000 Meter (Check conversion here)
Slant Length: 14.117 Kilometer --> 14117 Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
rp = Leff/Lslant --> 12000/14117
Evaluating ... ...
rp = 0.850038960119005
STEP 3: Convert Result to Output's Unit
0.850038960119005 --> No Conversion Required
FINAL ANSWER
0.850038960119005 0.850039 <-- Reduction Factor
(Calculation completed in 00.004 seconds)

Credits

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Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
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14 Radio Wave Propagation Calculators

Rain Attenuation in Decibels
Go Rain Attenuation = Specific Attenuation*Rain Rate^Specific Attenuation Coefficient*Slant Length*Reduction Factor
Specific Attenuation in Clouds or Fogs
Go Specific Attenuation due to Clouds = (Total Content of Liquid Water*Specific Attenuation Coefficient)/sin(Angle of Elevation)
Regression of Nodes
Go Regression Node = (Mean Motion*SCOM Constant)/(Semi Major Axis^2*(1-Eccentricity^2)^2)
Earth Station Altitude
Go Earth Station Altitude = Height of Rain-Slant Length*sin(Angle of Elevation)
Rain Height
Go Height of Rain = Slant Length*sin(Angle of Elevation)+Earth Station Altitude
Distribution of Rain Attenuation
Go Distribution of Rain Attenuation = 1+((2*Horizontal Projection Length)/(pi*Diameter of Rain Cell))
Horizontal Projection of Slant Length
Go Horizontal Projection Length = Slant Length*cos(Angle of Elevation)
Effective Path Length
Go Effective Path Length = Total Attenuation/Specific Attenuation
Total Attenuation
Go Total Attenuation = Effective Path Length*Specific Attenuation
Specific Attenuation
Go Specific Attenuation = Total Attenuation/Effective Path Length
Reduction Factor using Slant Length
Go Reduction Factor = Effective Path Length/Slant Length
Slant Length
Go Slant Length = Effective Path Length/Reduction Factor
Effective Path Length using Reduction Factor
Go Effective Path Length = Slant Length*Reduction Factor
Plasma Frequency Terms of Electronic Density
Go Plasma Frequency = 9*sqrt(Electron Density)

Reduction Factor using Slant Length Formula

Reduction Factor = Effective Path Length/Slant Length
rp = Leff/Lslant

Is slant height a length?

The slant height of an object (such as a cone, or pyramid) is the distance along the curved surface, drawn from the edge at the top to a point on the circumference of the circle at the base.

How to Calculate Reduction Factor using Slant Length?

Reduction Factor using Slant Length calculator uses Reduction Factor = Effective Path Length/Slant Length to calculate the Reduction Factor, The Reduction Factor using slant length formula is defined as the Strength is found by dividing the value of elastic strength by the yield strength. It is represented using the R factor. Reduction Factor is denoted by rp symbol.

How to calculate Reduction Factor using Slant Length using this online calculator? To use this online calculator for Reduction Factor using Slant Length, enter Effective Path Length (Leff) & Slant Length (Lslant) and hit the calculate button. Here is how the Reduction Factor using Slant Length calculation can be explained with given input values -> 0.3 = 12000/14117 .

FAQ

What is Reduction Factor using Slant Length?
The Reduction Factor using slant length formula is defined as the Strength is found by dividing the value of elastic strength by the yield strength. It is represented using the R factor and is represented as rp = Leff/Lslant or Reduction Factor = Effective Path Length/Slant Length. Effective Path Length refers to the total distance that a radio signal travels between a transmitter and a receiver, taking into account the effects of multipath propagation & Slant Length refers to the length of path followed by the radio wave signal as it travels from the transmitting satellite to the receiving satellite ground station.
How to calculate Reduction Factor using Slant Length?
The Reduction Factor using slant length formula is defined as the Strength is found by dividing the value of elastic strength by the yield strength. It is represented using the R factor is calculated using Reduction Factor = Effective Path Length/Slant Length. To calculate Reduction Factor using Slant Length, you need Effective Path Length (Leff) & Slant Length (Lslant). With our tool, you need to enter the respective value for Effective Path Length & Slant Length and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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