Order of Diffraction Calculator

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✖Grafting Space or distance between slits is the measure of seperation between two planes for diffraction to take place.ⓘ Grafting Space [d]			+10% -10%
✖Incident Angle is the angle at which the ray of beam hits the plane.ⓘ Incident Angle [θ_i]			+10% -10%
✖Wavelength of Ray is the distance between consecutive corresponding points of the same phase on the wave, such as two adjacent crests, troughs.ⓘ Wavelength of Ray [λ]			+10% -10%

✖Order of Diffraction refers to the number assigned to a specific interference pattern or a specific maximum or minimum of intensity observed in the diffracted pattern.ⓘ Order of Diffraction [m]

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Order of Diffraction

Formula

`"m" = (2*"d"*sin("θ"_{"i"}))/"λ"`

Example

`"7.272727"=(2*"160μm"*sin("30°"))/"22μm"`

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Order of Diffraction Solution

STEP 0: Pre-Calculation Summary

Formula Used

Order of Diffraction = (2*Grafting Space*sin(Incident Angle))/Wavelength of Ray
m = (2*d*sin(θ_i))/λ
This formula uses 1 Functions, 4 Variables

Functions Used

sin - Sine is a trigonometric function that describes the ratio of the length of the opposite side of a right triangle to the length of the hypotenuse., sin(Angle)

Variables Used

Order of Diffraction - Order of Diffraction refers to the number assigned to a specific interference pattern or a specific maximum or minimum of intensity observed in the diffracted pattern.
Grafting Space - (Measured in Meter) - Grafting Space or distance between slits is the measure of seperation between two planes for diffraction to take place.
Incident Angle - (Measured in Radian) - Incident Angle is the angle at which the ray of beam hits the plane.
Wavelength of Ray - (Measured in Meter) - Wavelength of Ray is the distance between consecutive corresponding points of the same phase on the wave, such as two adjacent crests, troughs.

STEP 1: Convert Input(s) to Base Unit

Grafting Space: 160 Micrometer --> 0.00016 Meter (Check conversion here)
Incident Angle: 30 Degree --> 0.5235987755982 Radian (Check conversion here)
Wavelength of Ray: 22 Micrometer --> 2.2E-05 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

m = (2*d*sin(θ_i))/λ --> (2*0.00016*sin(0.5235987755982))/2.2E-05

Evaluating ... ...

m = 7.27272727272727

STEP 3: Convert Result to Output's Unit

7.27272727272727 --> No Conversion Required

FINAL ANSWER

7.27272727272727 ≈ 7.272727 <-- Order of Diffraction

(Calculation completed in 00.006 seconds)

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Credits

Created by Yada Sai Pranay

Indian Institute of Information Technology Design and Manufacturing ((IIIT D&M Kancheepuram)), Chennai

Yada Sai Pranay has created this Calculator and 4 more calculators!

Verified by Saiju Shah

Jayawantrao Sawant College of Engineering (JSCOE), Pune

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< 18 Electrons & Holes Calculators

Phi-dependent Wave Function

Go Φ Dependent Wave Function = (1/sqrt(2*pi))*(exp(Wave Quantum Number*Wave Function Angle))

Order of Diffraction

Go Order of Diffraction = (2*Grafting Space*sin(Incident Angle))/Wavelength of Ray

Radius of Nth Orbit of Electron

Go Radius of nth Orbit of Electron = ([Coulomb]*Quantum Number^2*[hP]^2)/(Mass of Particle*[Charge-e]^2)

AC Conductance

Go AC Conductance = ([Charge-e]/([BoltZ]*Temperature))*Electric Current

Quantum State

Go Energy in Quantum State = (Quantum Number^2*pi^2*[hP]^2)/(2*Mass of Particle*Potential Well Length^2)

Hole Component

Go Hole Component = Electron Component*Emitter Injection Efficiency/(1-Emitter Injection Efficiency)

Mean Free Path

Go Mean Free Path Electron = (Electron Flux Density/(Difference in Electron Concentration))*2*Time

Electron Flux Density

Go Electron Flux Density = (Mean Free Path Electron/(2*Time))*Difference in Electron Concentration

Electron Component

Go Electron Component = ((Hole Component)/Emitter Injection Efficiency)-Hole Component

Difference in Electron Concentration

Go Difference in Electron Concentration = Electron Concentration 1-Electron Concentration 2

Electron Out of Region

Go Number of Electron Out of Region = Electron Multiplication*Number of Electron in Region

Electron in Region

Go Number of Electron in Region = Number of Electron Out of Region/Electron Multiplication

Electron Multiplication

Go Electron Multiplication = Number of Electron Out of Region/Number of Electron in Region

Total Carrier Current Density

Go Total Carrier Current Density = Electron Current Density +Hole Current Density

Electron Current Density

Go Electron Current Density = Total Carrier Current Density-Hole Current Density

Hole Current Density

Go Hole Current Density = Total Carrier Current Density-Electron Current Density

Mean Time Spend by Hole

Go Mean Time Spend by Hole = Optical Generation Rate*Majority Carrier Decay

Wave Function Amplitude

Go Amplitude of Wave Function = sqrt(2/Potential Well Length)

Order of Diffraction Formula

Order of Diffraction = (2*Grafting Space*sin(Incident Angle))/Wavelength of Ray
m = (2*d*sin(θ_i))/λ

What are the applications of Order of Diffraction?

The applications of diffraction orders include spectroscopy to analyze materials, creating diffraction gratings for optical devices, and determining molecular structures through X-ray diffraction in crystallography.

How to Calculate Order of Diffraction?

Order of Diffraction calculator uses Order of Diffraction = (2*Grafting Space*sin(Incident Angle))/Wavelength of Ray to calculate the Order of Diffraction, The Order of Diffraction formula refers to the number assigned to a specific interference pattern or a specific maximum or minimum of intensity observed in the diffracted pattern. It provides information about the relative positions and intensities of various diffraction maxima or minima. Order of Diffraction is denoted by m symbol.

How to calculate Order of Diffraction using this online calculator? To use this online calculator for Order of Diffraction, enter Grafting Space (d), Incident Angle (θ_i) & Wavelength of Ray (λ) and hit the calculate button. Here is how the Order of Diffraction calculation can be explained with given input values -> 7.272727 = (2*0.00016*sin(0.5235987755982))/2.2E-05.

FAQ

What is Order of Diffraction?

The Order of Diffraction formula refers to the number assigned to a specific interference pattern or a specific maximum or minimum of intensity observed in the diffracted pattern. It provides information about the relative positions and intensities of various diffraction maxima or minima and is represented as m = (2*d*sin(θ_i))/λ or Order of Diffraction = (2*Grafting Space*sin(Incident Angle))/Wavelength of Ray. Grafting Space or distance between slits is the measure of seperation between two planes for diffraction to take place, Incident Angle is the angle at which the ray of beam hits the plane & Wavelength of Ray is the distance between consecutive corresponding points of the same phase on the wave, such as two adjacent crests, troughs.

How to calculate Order of Diffraction?

The Order of Diffraction formula refers to the number assigned to a specific interference pattern or a specific maximum or minimum of intensity observed in the diffracted pattern. It provides information about the relative positions and intensities of various diffraction maxima or minima is calculated using Order of Diffraction = (2*Grafting Space*sin(Incident Angle))/Wavelength of Ray. To calculate Order of Diffraction, you need Grafting Space (d), Incident Angle (θ_i) & Wavelength of Ray (λ). With our tool, you need to enter the respective value for Grafting Space, Incident Angle & Wavelength of Ray 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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