Phase Velocity in Axial Direction Solution

STEP 0: Pre-Calculation Summary
Formula Used
Phase Velocity in Axial Direction = Helix Pitch/(sqrt(Relative Permeability*Permittivity of Dielectric*((Helix Pitch^2)+(pi*Diameter of Helix)^2)))
vpe = p/(sqrt(μr*ε*((p^2)+(pi*d)^2)))
This formula uses 1 Constants, 1 Functions, 5 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Functions Used
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
Phase Velocity in Axial Direction - (Measured in Meter per Second) - Phase Velocity in Axial Direction refers to the speed at which the phase of a wave propagates along the axis of a structure or medium.
Helix Pitch - (Measured in Meter) - Helix Pitch, which represents the distance between consecutive turns along the helix.
Relative Permeability - (Measured in Henry per Meter) - Relative Permeability is the ratio of effective permeability of a particular fluid at a particular saturation to absolute permeability of that fluid at total saturation.
Permittivity of Dielectric - (Measured in Farad per Meter) - Permittivity of Dielectric refers to the ability to store electrical energy in an electric field.
Diameter of Helix - (Measured in Meter) - Diameter of Helix is the distance across the widest part of the helix.
STEP 1: Convert Input(s) to Base Unit
Helix Pitch: 4.5 Meter --> 4.5 Meter No Conversion Required
Relative Permeability: 1.3 Henry per Meter --> 1.3 Henry per Meter No Conversion Required
Permittivity of Dielectric: 7.8 Farad per Meter --> 7.8 Farad per Meter No Conversion Required
Diameter of Helix: 3.3 Meter --> 3.3 Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
vpe = p/(sqrt(μr*ε*((p^2)+(pi*d)^2))) --> 4.5/(sqrt(1.3*7.8*((4.5^2)+(pi*3.3)^2)))
Evaluating ... ...
vpe = 0.125039461283172
STEP 3: Convert Result to Output's Unit
0.125039461283172 Meter per Second --> No Conversion Required
FINAL ANSWER
0.125039461283172 0.125039 Meter per Second <-- Phase Velocity in Axial Direction
(Calculation completed in 00.007 seconds)

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Created by Zaheer Sheik
Seshadri Rao Gudlavalleru Engineering College (SRGEC), Gudlavalleru
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Phase Velocity in Axial Direction Formula

​LaTeX ​Go
Phase Velocity in Axial Direction = Helix Pitch/(sqrt(Relative Permeability*Permittivity of Dielectric*((Helix Pitch^2)+(pi*Diameter of Helix)^2)))
vpe = p/(sqrt(μr*ε*((p^2)+(pi*d)^2)))

What is Phase Velocity in Axial Direction?

Phase velocity in the axial direction describes the speed at which the phase of a wave progresses along the length or axis of a medium or structure. It indicates how rapidly the phase of the wave changes as it travels through the medium or along the structure. This concept is essential for understanding wave propagation phenomena in different contexts, such as electromagnetic waves in transmission lines or acoustic waves in air or water. By knowing the phase velocity in the axial direction, we can analyze how waves behave as they propagate through various mediums and structures.

How to Calculate Phase Velocity in Axial Direction?

Phase Velocity in Axial Direction calculator uses Phase Velocity in Axial Direction = Helix Pitch/(sqrt(Relative Permeability*Permittivity of Dielectric*((Helix Pitch^2)+(pi*Diameter of Helix)^2))) to calculate the Phase Velocity in Axial Direction, The Phase Velocity in Axial Direction formula is defined refers to the speed at which the phase of a wave propagates along the axis of a structure or medium. It describes how quickly the phase of the wave changes as it travels along the length of the structure or medium in the axial (longitudinal) direction. Phase Velocity in Axial Direction is denoted by vpe symbol.

How to calculate Phase Velocity in Axial Direction using this online calculator? To use this online calculator for Phase Velocity in Axial Direction, enter Helix Pitch (p), Relative Permeability r), Permittivity of Dielectric (ε) & Diameter of Helix (d) and hit the calculate button. Here is how the Phase Velocity in Axial Direction calculation can be explained with given input values -> 0.125039 = 4.5/(sqrt(1.3*7.8*((4.5^2)+(pi*3.3)^2))).

FAQ

What is Phase Velocity in Axial Direction?
The Phase Velocity in Axial Direction formula is defined refers to the speed at which the phase of a wave propagates along the axis of a structure or medium. It describes how quickly the phase of the wave changes as it travels along the length of the structure or medium in the axial (longitudinal) direction and is represented as vpe = p/(sqrt(μr*ε*((p^2)+(pi*d)^2))) or Phase Velocity in Axial Direction = Helix Pitch/(sqrt(Relative Permeability*Permittivity of Dielectric*((Helix Pitch^2)+(pi*Diameter of Helix)^2))). Helix Pitch, which represents the distance between consecutive turns along the helix, Relative Permeability is the ratio of effective permeability of a particular fluid at a particular saturation to absolute permeability of that fluid at total saturation, Permittivity of Dielectric refers to the ability to store electrical energy in an electric field & Diameter of Helix is the distance across the widest part of the helix.
How to calculate Phase Velocity in Axial Direction?
The Phase Velocity in Axial Direction formula is defined refers to the speed at which the phase of a wave propagates along the axis of a structure or medium. It describes how quickly the phase of the wave changes as it travels along the length of the structure or medium in the axial (longitudinal) direction is calculated using Phase Velocity in Axial Direction = Helix Pitch/(sqrt(Relative Permeability*Permittivity of Dielectric*((Helix Pitch^2)+(pi*Diameter of Helix)^2))). To calculate Phase Velocity in Axial Direction, you need Helix Pitch (p), Relative Permeability r), Permittivity of Dielectric (ε) & Diameter of Helix (d). With our tool, you need to enter the respective value for Helix Pitch, Relative Permeability, Permittivity of Dielectric & Diameter of Helix 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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