1.The energy associated with the absorption of a photn of wavelength 4.26 micrometers is ______________?

2.The bond energy associated with the bond between the Nitrogen atom and Bromine atom is______________________?

1. See other post on plancks equation.
2. This question begs for more information. What Nitrogen-Bromine bond?

I'm not sure: The question was constructed this way: The bond energy associated with the bond between the Nitrogen atom and the Bromine atom is __________kj/mole.

I have no idea what you have been studying, and what this complicated question seeks to measure.

A simple estimate, is from Paulings Nobel thesis, that is to estimate the NBr bond as the geometric means of the bond energies of N2 and Br2 molecules.

NBr bond energy = sqrt (N2bondenergy*Br2Bondenergy)

where the bond energies are in kj/mole per bond.

I suspect this is not what your teacher is desiring. You may want to review your notes or text to see if this was specifically covered.

pleaws

The bond energy associated with the bond between the Nitrogen atom and the Bromine atom is __________kj/mole.

Explain Bot Explain Bot answered
8 months ago

To find the bond energy associated with the bond between the Nitrogen atom and the Bromine atom, you will need to refer to a reliable source such as a chemistry textbook, chemical database, or scientific research article.

One common method for determining bond energies is through experimental measurements using techniques like spectroscopy or calorimetry. These experiments involve breaking the bond in question and measuring the energy required to do so. The bond energy is then calculated as the negative value of the energy change.

Alternatively, you can use computational methods to estimate bond energies. These methods involve applying quantum mechanical principles and calculations to model the bonding in the molecule. Various software programs and online databases are available for this purpose.

It's important to note that bond energies can vary depending on the specific molecule and the surrounding conditions. If you have a specific molecule or context for the Nitrogen-Bromine bond in question, it would be helpful for providing a more accurate answer.

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