Calculator A to Z

Zero Point Energy given Dissociation Energy Calculator

Chemistry
Engineering
Financial
Health
Math
Physics
Playground
Dissociation Energy of Potential is the energy which is measured from the bottom of the potential.Dissociation Energy of Potential [De]
+10%
-10%
Zero Point Dissociation Energy is the dissociation energy which is measured at the zero point of the vibrational energy levels of the diatomic molecules.Zero Point Dissociation Energy [D0]
+10%
-10%
Zero Point Energy is the energy of vibration of energy levels of a diatomic molecule.Zero Point Energy given Dissociation Energy [E0]
⎘ Copy
👎
Formula

Zero Point Energy given Dissociation Energy

Formula
`"E"_{"0"} = "D"_{"e"}-"D"_{"0"}`

Example
`"5J"="10J"-"5J"`

Calculator
LaTeX
Reset
👍

Zero Point Energy given Dissociation Energy Solution

STEP 0: Pre-Calculation Summary
Formula Used
Zero Point Energy = Dissociation Energy of Potential-Zero Point Dissociation Energy
E0 = De-D0
This formula uses 3 Variables
Variables Used
Zero Point Energy - (Measured in Joule) - Zero Point Energy is the energy of vibration of energy levels of a diatomic molecule.
Dissociation Energy of Potential - (Measured in Joule) - Dissociation Energy of Potential is the energy which is measured from the bottom of the potential.
Zero Point Dissociation Energy - (Measured in Joule) - Zero Point Dissociation Energy is the dissociation energy which is measured at the zero point of the vibrational energy levels of the diatomic molecules.
STEP 1: Convert Input(s) to Base Unit
Dissociation Energy of Potential: 10 Joule --> 10 Joule No Conversion Required
Zero Point Dissociation Energy: 5 Joule --> 5 Joule No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
E0 = De-D0 --> 10-5
Evaluating ... ...
E0 = 5
STEP 3: Convert Result to Output's Unit
5 Joule --> No Conversion Required
FINAL ANSWER
5 Joule <-- Zero Point Energy
(Calculation completed in 00.004 seconds)
You are here -
Home » Chemistry » Analytical chemistry » Molecular Spectroscopy » Vibrational spectroscopy » Vibrational Energy Levels » Zero Point Energy given Dissociation Energy

Credits

Created by Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has created this Calculator and 500+ more calculators!
Verified by Pragati Jaju
College Of Engineering (COEP), Pune
Pragati Jaju has verified this Calculator and 300+ more calculators!

15 Vibrational Energy Levels Calculators

Energy of Vibrational Transitions
Go Vibrational Energy in Transition = ((Vibrational Quantum Number+1/2)-Anharmonicity Constant*((Vibrational Quantum Number+1/2)^2))*([hP]*Vibrational Frequency)
Vibrational energy using Anharmonicity constant
Go Vibrational Energy given xe constant = ((Vibrational Wavenumber)^2)/(4*Anharmonicity Constant*Vibrational Wavenumber*Max Vibrational Number)
Anharmonicity Constant given Dissociation Energy
Go Anharmonicity Constant = ((Vibrational Wavenumber)^2)/(4*Dissociation Energy of Potential*Vibrational Wavenumber)
Dissociation Energy given Vibrational Wavenumber
Go Dissociation Energy of Potential = (Vibrational Wavenumber^2)/(4*Anharmonicity Constant*Vibrational Wavenumber)
Zero Point Energy
Go Zero Point Energy = (1/2*Vibrational Wavenumber)-(1/4*Anharmonicity Constant*Vibrational Wavenumber)
Vibrational Energy
Go Vibrational Energy in Transition = (Vibrational Quantum Number+1/2)*([hP]*Vibrational Frequency)
Vibrational Frequency given Vibrational Energy
Go Vibrational Frequency given VE = Vibrational Energy/(Vibrational Quantum Number+1/2)*[hP]
Vibrational Energy using Vibrational Wave Number
Go Vibrational Energy given wavenumber = (Vibrational Quantum Number+1/2)*Vibrational Wavenumber
Vibrational Wavenumber given Vibrational Energy
Go Vibrational Wavenumber given VE = Vibrational Energy/(Vibrational Quantum Number+1/2)
Vibrational Energy using Dissociation Energy
Go Vibrational Energy given DE = Dissociation Energy of Potential/Max Vibrational Number
Dissociation Energy of Potential using Zero Point Energy
Go Dissociation Energy of Potential = Zero Point Dissociation Energy+Zero Point Energy
Zero Point Energy given Dissociation Energy
Go Zero Point Energy = Dissociation Energy of Potential-Zero Point Dissociation Energy
Dissociation Energy of Potential
Go Actual Dissociation Energy of Potential = Vibrational Energy*Max Vibrational Number
Zero Point Dissociation Energy
Go Zero Point Dissociation Energy = Dissociation Energy of Potential-Zero Point Energy
Maximum Vibrational Quantum Number given Dissociation Energy
Go Maximum Vibrational Number = Dissociation Energy of Potential/Vibrational Energy

15 Vibrational energy levels Calculators

Energy of Vibrational Transitions
Go Vibrational Energy in Transition = ((Vibrational Quantum Number+1/2)-Anharmonicity Constant*((Vibrational Quantum Number+1/2)^2))*([hP]*Vibrational Frequency)
Vibrational energy using Anharmonicity constant
Go Vibrational Energy given xe constant = ((Vibrational Wavenumber)^2)/(4*Anharmonicity Constant*Vibrational Wavenumber*Max Vibrational Number)
Anharmonicity Constant given Dissociation Energy
Go Anharmonicity Constant = ((Vibrational Wavenumber)^2)/(4*Dissociation Energy of Potential*Vibrational Wavenumber)
Dissociation Energy given Vibrational Wavenumber
Go Dissociation Energy of Potential = (Vibrational Wavenumber^2)/(4*Anharmonicity Constant*Vibrational Wavenumber)
Zero Point Energy
Go Zero Point Energy = (1/2*Vibrational Wavenumber)-(1/4*Anharmonicity Constant*Vibrational Wavenumber)
Vibrational Energy
Go Vibrational Energy in Transition = (Vibrational Quantum Number+1/2)*([hP]*Vibrational Frequency)
Vibrational Frequency given Vibrational Energy
Go Vibrational Frequency given VE = Vibrational Energy/(Vibrational Quantum Number+1/2)*[hP]
Vibrational Energy using Vibrational Wave Number
Go Vibrational Energy given wavenumber = (Vibrational Quantum Number+1/2)*Vibrational Wavenumber
Vibrational Wavenumber given Vibrational Energy
Go Vibrational Wavenumber given VE = Vibrational Energy/(Vibrational Quantum Number+1/2)
Vibrational Energy using Dissociation Energy
Go Vibrational Energy given DE = Dissociation Energy of Potential/Max Vibrational Number
Dissociation Energy of Potential using Zero Point Energy
Go Dissociation Energy of Potential = Zero Point Dissociation Energy+Zero Point Energy
Zero Point Energy given Dissociation Energy
Go Zero Point Energy = Dissociation Energy of Potential-Zero Point Dissociation Energy
Dissociation Energy of Potential
Go Actual Dissociation Energy of Potential = Vibrational Energy*Max Vibrational Number
Zero Point Dissociation Energy
Go Zero Point Dissociation Energy = Dissociation Energy of Potential-Zero Point Energy
Maximum Vibrational Quantum Number given Dissociation Energy
Go Maximum Vibrational Number = Dissociation Energy of Potential/Vibrational Energy

Zero Point Energy given Dissociation Energy Formula

Zero Point Energy = Dissociation Energy of Potential-Zero Point Dissociation Energy
E0 = De-D0

What is Dissociation energy?

The term dissociation energy may be appreciated by reference to potential energy internuclear distance curves. At about 0 K all molecules have no rotational energy but are merely vibrating with their zero-point energy. Thus, diatomic molecules are in the v = 0 vibrational level. The energy required to separate the stable molecule A - B initially in the v = 0 level into two unexcited atoms A and B, that is: A - B → A+B is known as the dissociation energy (D).

How to Calculate Zero Point Energy given Dissociation Energy?

Zero Point Energy given Dissociation Energy calculator uses Zero Point Energy = Dissociation Energy of Potential-Zero Point Dissociation Energy to calculate the Zero Point Energy, The Zero point energy given dissociation energy formula is defined as the energy of vibration of energy levels of a diatomic molecule. Zero Point Energy is denoted by E0 symbol.

How to calculate Zero Point Energy given Dissociation Energy using this online calculator? To use this online calculator for Zero Point Energy given Dissociation Energy, enter Dissociation Energy of Potential (De) & Zero Point Dissociation Energy (D0) and hit the calculate button. Here is how the Zero Point Energy given Dissociation Energy calculation can be explained with given input values -> 5 = 10-5.

FAQ

What is Zero Point Energy given Dissociation Energy?
The Zero point energy given dissociation energy formula is defined as the energy of vibration of energy levels of a diatomic molecule and is represented as E0 = De-D0 or Zero Point Energy = Dissociation Energy of Potential-Zero Point Dissociation Energy. Dissociation Energy of Potential is the energy which is measured from the bottom of the potential & Zero Point Dissociation Energy is the dissociation energy which is measured at the zero point of the vibrational energy levels of the diatomic molecules.
How to calculate Zero Point Energy given Dissociation Energy?
The Zero point energy given dissociation energy formula is defined as the energy of vibration of energy levels of a diatomic molecule is calculated using Zero Point Energy = Dissociation Energy of Potential-Zero Point Dissociation Energy. To calculate Zero Point Energy given Dissociation Energy, you need Dissociation Energy of Potential (De) & Zero Point Dissociation Energy (D0). With our tool, you need to enter the respective value for Dissociation Energy of Potential & Zero Point Dissociation Energy and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Zero Point Energy?
In this formula, Zero Point Energy uses Dissociation Energy of Potential & Zero Point Dissociation Energy. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Zero Point Energy = (1/2*Vibrational Wavenumber)-(1/4*Anharmonicity Constant*Vibrational Wavenumber)
  • Zero Point Energy = (1/2*Vibrational Wavenumber)-(1/4*Anharmonicity Constant*Vibrational Wavenumber)
About | Contact | Disclaimer | Terms | Privacy Policy
© 2016-2024 A softusvista inc. venture!



Home
FREE PDFs
🔍 Search

Categories

Share
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!