Wavelength of Incident Beam given Compton Shift Calculator

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Compton Effect

Bohr's Atomic Model

De Broglie Hypothesis

Distance of Closest Approach

Heisenberg's Uncertainty Principle

Important Formulas on Bohr's Atomic Model

Photo Electric Effect

Planck Quantum Theory

Rutherford Scattering

Schrodinger Wave Equation

Sommerfeld Model

Structure of Atom

✖Wavelength of Scattered Beam is the wavelength of radiation spectrum peaks or intensity peaks at the scattered photon.ⓘ Wavelength of Scattered Beam [λ_s]			+10% -10%
✖Compton Shift is the separation of the two peaks which depends on the scattering angle,θ of the outgoing beam.ⓘ Compton Shift [Δλ]			+10% -10%

✖Wavelength of incident beam is the wavelength of radiation spectrum peaks or intensity peaks at the incident photon.ⓘ Wavelength of Incident Beam given Compton Shift [λ_i]

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Wavelength of Incident Beam given Compton Shift

Formula

`"λ"_{"i"} = "λ"_{"s"}-"Δλ"`

Example

`"99.68Compton Wavelength"="100Compton Wavelength"-"0.32Compton Wavelength"`

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Wavelength of Incident Beam given Compton Shift Solution

STEP 0: Pre-Calculation Summary

Formula Used

Wavelength of incident beam = Wavelength of Scattered Beam-Compton Shift
λ_i = λ_s-Δλ
This formula uses 3 Variables

Variables Used

Wavelength of incident beam - (Measured in Meter) - Wavelength of incident beam is the wavelength of radiation spectrum peaks or intensity peaks at the incident photon.
Wavelength of Scattered Beam - (Measured in Meter) - Wavelength of Scattered Beam is the wavelength of radiation spectrum peaks or intensity peaks at the scattered photon.
Compton Shift - (Measured in Meter) - Compton Shift is the separation of the two peaks which depends on the scattering angle,θ of the outgoing beam.

STEP 1: Convert Input(s) to Base Unit

Wavelength of Scattered Beam: 100 Electron Compton Wavelength --> 2.42631057999994E-10 Meter (Check conversion here)
Compton Shift: 0.32 Electron Compton Wavelength --> 7.76419385599982E-13 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

λ_i = λ_s-Δλ --> 2.42631057999994E-10-7.76419385599982E-13

Evaluating ... ...

λ_i = 2.41854638614394E-10

STEP 3: Convert Result to Output's Unit

2.41854638614394E-10 Meter -->99.6799999999998 Electron Compton Wavelength (Check conversion here)

FINAL ANSWER

99.6799999999998 ≈ 99.68 Electron Compton Wavelength <-- Wavelength of incident beam

(Calculation completed in 00.004 seconds)

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National Institute of Information Technology (NIIT), Neemrana

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< 6 Compton Effect Calculators

Compton Wavelength of Electron

Go Compton Wavelength of an Electron = [hP]/(Rest Mass of Electron*[c])

Compton Shift

Go Compton Shift of an Atom = Wavelength of Scattered Beam-Wavelength of incident beam

Compton Wavelength given Compton Shift

Go Compton Wavelength = Compton Shift/(1-cos(Theta))

Compton Shift given Wavelength

Go Compton Shift = Compton Wavelength*(1-cos(Theta))

Wavelength of Scattered Beam given Compton Shift

Go Wavelength of Scattered Beam = Compton Shift+Wavelength of incident beam

Wavelength of Incident Beam given Compton Shift

Go Wavelength of incident beam = Wavelength of Scattered Beam-Compton Shift

Wavelength of Incident Beam given Compton Shift Formula

Wavelength of incident beam = Wavelength of Scattered Beam-Compton Shift
λ_i = λ_s-Δλ

What is Compton shift?

The Compton effect is the term used for an unusual result observed when X-rays are scattered on some materials. By classical theory, when an electromagnetic wave is scattered off atoms, the wavelength of the scattered radiation is expected to be the same as the wavelength of the incident radiation.

How to Calculate Wavelength of Incident Beam given Compton Shift?

Wavelength of Incident Beam given Compton Shift calculator uses Wavelength of incident beam = Wavelength of Scattered Beam-Compton Shift to calculate the Wavelength of incident beam, The Wavelength of Incident Beam given Compton Shift is the wavelength of radiation spectrum peaks or intensity peaks at the incident photon. Wavelength of incident beam is denoted by λ_i symbol.

How to calculate Wavelength of Incident Beam given Compton Shift using this online calculator? To use this online calculator for Wavelength of Incident Beam given Compton Shift, enter Wavelength of Scattered Beam (λ_s) & Compton Shift (Δλ) and hit the calculate button. Here is how the Wavelength of Incident Beam given Compton Shift calculation can be explained with given input values -> 4.1E+13 = 2.42631057999994E-10-7.76419385599982E-13.

FAQ

What is Wavelength of Incident Beam given Compton Shift?

The Wavelength of Incident Beam given Compton Shift is the wavelength of radiation spectrum peaks or intensity peaks at the incident photon and is represented as λ_i = λ_s-Δλ or Wavelength of incident beam = Wavelength of Scattered Beam-Compton Shift. Wavelength of Scattered Beam is the wavelength of radiation spectrum peaks or intensity peaks at the scattered photon & Compton Shift is the separation of the two peaks which depends on the scattering angle,θ of the outgoing beam.

How to calculate Wavelength of Incident Beam given Compton Shift?

The Wavelength of Incident Beam given Compton Shift is the wavelength of radiation spectrum peaks or intensity peaks at the incident photon is calculated using Wavelength of incident beam = Wavelength of Scattered Beam-Compton Shift. To calculate Wavelength of Incident Beam given Compton Shift, you need Wavelength of Scattered Beam (λ_s) & Compton Shift (Δλ). With our tool, you need to enter the respective value for Wavelength of Scattered Beam & Compton Shift 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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