HCF of three numbers

Directivity of Half-Wave Dipole Calculator

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✖Maximum Power Density refers to the highest amount of power per unit area that is present within a given region of space.ⓘ Maximum Power Density [[P]_max]			+10% -10%
✖Average Power Density refers to the average amount of power per unit area that is present within a given region of space over a specified period of time.ⓘ Average Power Density [[Pr]_avg]			+10% -10%

✖Directivity of Half Wave Dipole antenna refers to its ability to concentrate radiation in certain directions while reducing it in others.ⓘ Directivity of Half-Wave Dipole [D_hwd]

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Directivity of Half-Wave Dipole Solution

STEP 0: Pre-Calculation Summary

Formula Used

Directivity of Half Wave Dipole = Maximum Power Density/Average Power Density
D_hwd = [P]_max/[Pr]_avg
This formula uses 3 Variables

Variables Used

Directivity of Half Wave Dipole - Directivity of Half Wave Dipole antenna refers to its ability to concentrate radiation in certain directions while reducing it in others.
Maximum Power Density - (Measured in Watt Per Cubic Meter) - Maximum Power Density refers to the highest amount of power per unit area that is present within a given region of space.
Average Power Density - (Measured in Watt Per Cubic Meter) - Average Power Density refers to the average amount of power per unit area that is present within a given region of space over a specified period of time.

STEP 1: Convert Input(s) to Base Unit

Maximum Power Density: 120.26 Watt Per Cubic Meter --> 120.26 Watt Per Cubic Meter No Conversion Required
Average Power Density: 73.2376092 Watt Per Cubic Meter --> 73.2376092 Watt Per Cubic Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

D_hwd = [P]_max/[Pr]_avg --> 120.26/73.2376092

Evaluating ... ...

D_hwd = 1.64205250981896

STEP 3: Convert Result to Output's Unit

1.64205250981896 --> No Conversion Required

FINAL ANSWER

1.64205250981896 ≈ 1.642053 <-- Directivity of Half Wave Dipole

(Calculation completed in 00.019 seconds)

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Created by Souradeep Dey

National Institute of Technology Agartala (NITA), Agartala, Tripura

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Dayananda Sagar College Of Engineering (DSCE), Banglore

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< Electromagnetic Radiation and Antennas Calculators

Poynting Vector Magnitude

LaTeX Go Poynting Vector = 1/2*((Dipole Current*Wavenumber*Source Distance)/(4*pi))^2*Intrinsic Impedance*(sin(Polar Angle))^2

Radiation Efficiency of Antenna

LaTeX Go Radiation Efficiency of Antenna = Maximum Gain/Maximum Directivity

Average Power

LaTeX Go Average Power = 1/2*Sinusoidal Current^2*Radiation Resistance

Radiation Resistance of Antenna

LaTeX Go Radiation Resistance = 2*Average Power/Sinusoidal Current^2

Directivity of Half-Wave Dipole Formula

LaTeX Go

Directivity of Half Wave Dipole = Maximum Power Density/Average Power Density
D_hwd = [P]_max/[Pr]_avg

What is the significance of directivity of Half-Wave Dipole?

A Half-Wave Dipole antenna's directivity is crucial for many applications, especially radio frequency engineering and telecommunications. The directivity of an antenna improves its ability to transmit and receive signals by concentrating electromagnetic radiation in particular directions. Better coverage, stronger signals, and longer communication ranges are made possible by this. Moreover, the half-wave dipole antenna's directivity guarantees effective signal propagation while reducing interference from undesired directions in situations where directed communication is necessary, such as point-to-point communications or satellite communication. Furthermore, accurate target identification and measurement in domains such as radar and remote sensing depend on the antenna's radiation pattern being controllable through directivity.

How to Calculate Directivity of Half-Wave Dipole?

Directivity of Half-Wave Dipole calculator uses Directivity of Half Wave Dipole = Maximum Power Density/Average Power Density to calculate the Directivity of Half Wave Dipole, Directivity of Half-Wave Dipole is a measure of how concentrated its radiation pattern is in a particular direction compared to an isotropic radiator, typically around 2.15 dBi. Directivity of Half Wave Dipole is denoted by D_hwd symbol.

How to calculate Directivity of Half-Wave Dipole using this online calculator? To use this online calculator for Directivity of Half-Wave Dipole, enter Maximum Power Density ([P]_max) & Average Power Density ([Pr]_avg) and hit the calculate button. Here is how the Directivity of Half-Wave Dipole calculation can be explained with given input values -> 1.642053 = 120.26/73.2376092.

FAQ

What is Directivity of Half-Wave Dipole?

Directivity of Half-Wave Dipole is a measure of how concentrated its radiation pattern is in a particular direction compared to an isotropic radiator, typically around 2.15 dBi and is represented as D_hwd = [P]_max/[Pr]_avg or Directivity of Half Wave Dipole = Maximum Power Density/Average Power Density. Maximum Power Density refers to the highest amount of power per unit area that is present within a given region of space & Average Power Density refers to the average amount of power per unit area that is present within a given region of space over a specified period of time.

How to calculate Directivity of Half-Wave Dipole?

Directivity of Half-Wave Dipole is a measure of how concentrated its radiation pattern is in a particular direction compared to an isotropic radiator, typically around 2.15 dBi is calculated using Directivity of Half Wave Dipole = Maximum Power Density/Average Power Density. To calculate Directivity of Half-Wave Dipole, you need Maximum Power Density ([P]_max) & Average Power Density ([Pr]_avg). With our tool, you need to enter the respective value for Maximum Power Density & Average Power Density 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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