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.


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

  1. 👍
  2. 👎
  3. 👁

Respond to this Question

First Name

Your Response

Similar Questions

  1. Physics

    An electron begins in the n = 7 orbital of a hydrogen atom. It then emits a photon of wavelength λ and falls to a lower energy level. Before it has a chance to change levels again, it absorbs a 10 eV photon and is ejected from

  2. Science

    Which of the following correctly describes a radio wave? long wavelength and high frequency long wavelength and low frequency short wavelength and low frequency short wavelength and high frequency 3. When the energy of a light

  3. Solar Energy Help ASAP

    In the figure below the absorption coefficient as a function of the wavelength for several semiconductor materials is presented. Let's consider monochromatic light of photons with energy of Eph=1.55eV that incidents a film with

  4. Earth science

    The greenhouse effect is a result of A. consumption of fruits and vegetables that produce a biofuel. B. absorption and radiation of energy in the hydrosphere. C. absorption and radiation of energy in the atmosphere. D. consumption

  1. Chemistry

    When an electron makes a transition from the n=3 to the n=2 hydrogen atom bohr orbit, the energy difference between these two orbits (3.0x10^-19 J) is given off in a photon of light. The relationship ... between the energy of a

  2. Physics

    (a) Photoelectrons with a maximum kinetic energy of 7.6eV are emitted from a metal when it is illuminated by ultraviolet radiation with a wavelength of 1.3×10^2 nm. (i) What is the energy of the incident photons in electronvolts?

  3. Physics

    I need help solving this please! I think that for part (b) I can use energy and wavelength to solve for frequency and the one with the highest frequency is the most damaging, but I'm not sure what to do for part (a). You want to

  4. Science

    1. Which phrase best describes wavelength? A. The number of times a wave repeats B. The time it takes for a wave to repeat C. The distance between wave crests D. The distance a wave is from the starting point 2. What do all the

  1. physics

    The electromagnetic _____________ is the range of all possible frequencies of electromagnetic radiation. A common name for the electromagnetic radiation that humans can see is ______________ light. What humans call white light is

  2. Physics -Compton Scattering

    QUESTION 1: Calculate the maximum increase in photon wavelength that can occur during Compton scattering. = ??? pm QUESTION 2: What is the energy (in electron volts) of the smallest-energy x-ray photon for which Compton scattering

  3. Atomic physics

    5)a. Electrons accelerated by a potential difference of 12.23 V pass through a gas of hydrogen atoms at room temperature. Calculate the wavelength of light emitted with the longest possible wavelength. b. Calculate the wavelength

  4. physics

    a) If a photon and an electron each have the same energy of 20.0 eV, find the wavelength of each. b) If a photon and an electron each have the same wavelength of 250 nm, find the energy of each. c) You want to study an organic

You can view more similar questions or ask a new question.