Question

3. The force constant of the HI molecule is 290 Nm-1 . (a) Calculate the stretching...

3. The force constant of the HI molecule is 290 Nm-1 .

(a) Calculate the stretching frequency of the molecule.

(b) Calculate the zero point energy of the molecule.

(c) Radiation of what wavelength would have photons with just the right amount of energy to excite HI molecules from one vibrational state to the next higherenergy state? In what spectral region does the radiation with this wavelength, or photon energy, occur?

(d) If one used the deuterated analogue, what would be the stretching frequency of the molecule?

0 0
Add a comment Improve this question Transcribed image text
Answer #1

The answer is given in the attachment .

Add a comment
Know the answer?
Add Answer to:
3. The force constant of the HI molecule is 290 Nm-1 . (a) Calculate the stretching...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • A laser emitting at 350 nm passes through a cuvette containing water. Due to the Raman...

    A laser emitting at 350 nm passes through a cuvette containing water. Due to the Raman effect, as the laser passes through water, it loses energy to excite vibrational modes of water molecules. Consider only the vibrational level in water corresponding to the stretching of the OH bond which occurs at about 3500 cm−1. What is the wavelength of the laser radiation after it went through the water if the energy is lost due to the excitation of one vibrational...

  • 1. Ultraviolet radiation has a frequency of 6.8 x 101 1/3. Calculate the energy

     .1. Ultraviolet radiation has a frequency of 6.8 x 101 1/3. Calculate the energy, in joules, of the photon. 2. Find the energy, in joules per photon, of microwave radiation with a frequency of 7.91 x 10101/s. 3. A sodium vapor lamp emits light photons with a wavelength of 5.89 x 10m. What is the energy of these photons? 4. One of the electron transitions in a hydrogen atom produces infrared light with a wavelength of 7.464x 10m. What amount of energy causes...

  • Calculate the energy in joules per photon and kilojoules per mol for the following. energy of...

    Calculate the energy in joules per photon and kilojoules per mol for the following. energy of one photon of red light with wavelength 666.1 nm __________________J/photon energy of one mole photons of red light with wavelength 666.1 nm __________________kJ/mol photon energy of one photon of infrared radiation whose wavelength is 1256 nm __________________J/photon energy of one photon of infrared radiation whose wavelength is 1256 nm __________________kJ/mol photon energy of one photon of ultraviolet light with a frequency of 4645000000000000 Hz...

  • For electromagnetic radiation with a wavelength of 213.5 nm: (a) What is the frequency of the...

    For electromagnetic radiation with a wavelength of 213.5 nm: (a) What is the frequency of the radiation (in s-1)? (b) What is the energy (in J) of one photon of the radiation? (c) What is the energy (in kJ) of one mole of photons of the radiation?

  • 1. Carbon nanotubes are large cylindrical molecules made up of a network of covalently bound carb...

    1. Carbon nanotubes are large cylindrical molecules made up of a network of covalently bound carbon atoms. The electrons in carbon nanotubes can be considered as particles in a one-dimensional box. For a nanotube of length 30 nm what is the probability of an electron being within 10 nm of the centre of nanotube if the electron is in the state n 3? a. b. What wavelength of light is needed to excite the electron from the n-2 to n...

  • 4&5 only thnkyouu :) 3. The force constant for 119F molecule is 966 N/m. a) Calculate...

    4&5 only thnkyouu :) 3. The force constant for 119F molecule is 966 N/m. a) Calculate the zero-point vibrational energy using a harmonic oscillator potential. b) Calculate the frequency of light needed to excite this molecule from the ground state to the first excited state. 4. Is 41(x) = *xe 2 an eigenfunction for the kinetic energy operator? Is it an eigenfunction for potential energy operator? 5. HCI molecule can be described by the Morse potential with De = 7.41...

  • Be3+ is a one-electron ion. It is a beryllium atom that has lost 3 of its...

    Be3+ is a one-electron ion. It is a beryllium atom that has lost 3 of its electrons. Minimum energy of a photon that would ionize this ion= -217.6 eV The wavelength of the photon that would excite Be3+ from its ground state to its first excited state= 7.56 nm Calculate the kinetic energy of the photoelectrons if radiation of 4.0 nm of wavelength falls on an ensemble of Be3+ ions.

  • The vibrational frequency of a CO molecule is 6.51x10135-1. What frequency of light is needed to...

    The vibrational frequency of a CO molecule is 6.51x10135-1. What frequency of light is needed to excite this molecule from the v=0 vibrational state to the v=1 vibrational state, if it is treated as a harmonic oscillator? Report your frequency as a wavenumber, in units of cm-1. Question 4 1 pts The following table lists the frequency of light absorbed by several different molecules in order to excite their vibrational energy. molecule õ(cm-1) HBr 2649 HCI 2991 NO 1904 In...

  • PART A Calculate the energy of a photon of electromagnetic radiation whose frequency is 2.79×1014 s−1...

    PART A Calculate the energy of a photon of electromagnetic radiation whose frequency is 2.79×1014 s−1 . Express your answer with the appropriate units. Calculate the energy of a photon of radiation whose wavelength is 429 nm . Part B Express your answer with the appropriate units. Part C What wavelength of radiation has photons of energy 6.19×10−19 J ? Express your answer with the appropriate units.

  • Calculate the energy of a photon required to excite a hydrogen atom from the n =...

    Calculate the energy of a photon required to excite a hydrogen atom from the n = 1 state to the n = 2 state. 10. [1pt] Calculate the energy of a photon required to excite a hydrogen atom from the - 1 state to the n - 2 state, Answer: Submit All Answers 11. [1pt] An electron in a hydrogen atom falls to an energy level n = 2. If the wavelength of the emitted electromagnetic radiation is 4.86x10m, what...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT