Kinetic Energy given Binding Energy Solution

STEP 0: Pre-Calculation Summary
Formula Used
Kinetic Energy of Photoelectron = ([hP]*Frequency of Light)-Binding Energy of Photoelectron-Work Function
Ekinetic = ([hP]*v)-Ebinding-Φ
This formula uses 1 Constants, 4 Variables
Constants Used
[hP] - Planck constant Value Taken As 6.626070040E-34
Variables Used
Kinetic Energy of Photoelectron - (Measured in Joule) - Kinetic Energy of Photoelectron is the energy associated with the movement of photoelectron.
Frequency of Light - (Measured in Hertz) - Frequency of Light is defined as how many wavelengths a photon propagates each second.
Binding Energy of Photoelectron - (Measured in Newton Meter) - The Binding Energy of Photoelectron is the amount of energy required to separate a particle from a system of particles or to disperse all the particles of the system.
Work Function - (Measured in Joule) - Work Function is the minimum thermodynamic work needed to remove an electron from a solid to a point in the vacuum immediately outside the solid surface.
STEP 1: Convert Input(s) to Base Unit
Frequency of Light: 2.4E+34 Hertz --> 2.4E+34 Hertz No Conversion Required
Binding Energy of Photoelectron: 14.4 Newton Meter --> 14.4 Newton Meter No Conversion Required
Work Function: 1.5 Joule --> 1.5 Joule No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ekinetic = ([hP]*v)-Ebinding-Φ --> ([hP]*2.4E+34)-14.4-1.5
Evaluating ... ...
Ekinetic = 0.00256809599999919
STEP 3: Convert Result to Output's Unit
0.00256809599999919 Joule --> No Conversion Required
FINAL ANSWER
0.00256809599999919 0.002568 Joule <-- Kinetic Energy of Photoelectron
(Calculation completed in 00.004 seconds)

Credits

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Amity Institute Of Applied Sciences (AIAS, Amity University), Noida, India
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9 Spectrometric Characterization of Polymers Calculators

Kinetic Energy given Binding Energy
Go Kinetic Energy of Photoelectron = ([hP]*Frequency of Light)-Binding Energy of Photoelectron-Work Function
Binding Energy given Work Function
Go Binding Energy of Photoelectron = ([hP]*Frequency of Light)-Kinetic Energy of Photoelectron-Work Function
Thermal Conductivity given Heat Flow Rate
Go Thermal Conductivity = (Heat Flow Rate*Thickness of Sample)/ (Sample Area*Change in Temperature)
Energy of Auger Electron
Go Energy of Auger Electron = Energy of Outer Shell Electron-Energy of Inner Shell Electron+Energy of Second Outer Shell Electron
Change in Temperature given Thermal Conductivity
Go Change in Temperature = (Heat Flow Rate*Thickness of Sample)/(Sample Area*Thermal Conductivity)
Specific Heat Capacity given Thermal Diffusivity
Go Specific Heat Capacity = Thermal Conductivity/(Thermal Diffusivity*Density)
Density given Thermal Diffusivity
Go Density = Thermal Conductivity/(Thermal Diffusivity*Specific Heat Capacity)
Mobility given Conductivity
Go Mobility of Electron = Conductivity/(Number of Electrons*[Charge-e])
Heat of Polymerization
Go Heat of Polymerization = Activation Energy for Propagation-Activation Energy for Depolymerization

Kinetic Energy given Binding Energy Formula

Kinetic Energy of Photoelectron = ([hP]*Frequency of Light)-Binding Energy of Photoelectron-Work Function
Ekinetic = ([hP]*v)-Ebinding-Φ

What is Auger Electron Spectroscopy?

Auger electron spectroscopy (AES) is a surface-specific analytical technique that utilizes a high-energy, finely-focused electron beam as an excitation source. Auger electrons are produced when the excited atoms release the extra energy to an electron that is then emitted as an Auger electron. It provides quantitative elemental and chemical state information from surfaces of solid materials. The average depth of analysis for an AES measurement is approximately 5 nm.

How to Calculate Kinetic Energy given Binding Energy?

Kinetic Energy given Binding Energy calculator uses Kinetic Energy of Photoelectron = ([hP]*Frequency of Light)-Binding Energy of Photoelectron-Work Function to calculate the Kinetic Energy of Photoelectron, The Kinetic Energy given Binding Energy is the difference between the energy of the incident photon and the work function of the metal. The work function is the binding energy of electrons to the metal surface. Kinetic Energy of Photoelectron is denoted by Ekinetic symbol.

How to calculate Kinetic Energy given Binding Energy using this online calculator? To use this online calculator for Kinetic Energy given Binding Energy, enter Frequency of Light (v), Binding Energy of Photoelectron (Ebinding) & Work Function (Φ) and hit the calculate button. Here is how the Kinetic Energy given Binding Energy calculation can be explained with given input values -> 0.002568 = ([hP]*2.4E+34)-14.4-1.5.

FAQ

What is Kinetic Energy given Binding Energy?
The Kinetic Energy given Binding Energy is the difference between the energy of the incident photon and the work function of the metal. The work function is the binding energy of electrons to the metal surface and is represented as Ekinetic = ([hP]*v)-Ebinding or Kinetic Energy of Photoelectron = ([hP]*Frequency of Light)-Binding Energy of Photoelectron-Work Function. Frequency of Light is defined as how many wavelengths a photon propagates each second, The Binding Energy of Photoelectron is the amount of energy required to separate a particle from a system of particles or to disperse all the particles of the system & Work Function is the minimum thermodynamic work needed to remove an electron from a solid to a point in the vacuum immediately outside the solid surface.
How to calculate Kinetic Energy given Binding Energy?
The Kinetic Energy given Binding Energy is the difference between the energy of the incident photon and the work function of the metal. The work function is the binding energy of electrons to the metal surface is calculated using Kinetic Energy of Photoelectron = ([hP]*Frequency of Light)-Binding Energy of Photoelectron-Work Function. To calculate Kinetic Energy given Binding Energy, you need Frequency of Light (v), Binding Energy of Photoelectron (Ebinding) & Work Function (Φ). With our tool, you need to enter the respective value for Frequency of Light, Binding Energy of Photoelectron & Work Function 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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