A measurement of the vibrational energy levels of 12cl00 applying Morse potential gives the relationshipPm) = 2170.21(a +)em – 13.461(a +) emwhere n is the vibrational quantum number. What would be the De-value of the 12C160-molecule in a kJ mol-l?-I – 13.461n+cmOA 1034O B. 1737OC.1.51O D. 12.94OE 1046

Given, Morse potential relationship: ν(n) = 2170.21n+12cm-1 - 13.461n+122cm-1 n is vibrational…

A measurement of the vibrational energy levels of 12cl°0 applying Morse potential gives the relationship where n is the vibrational quantum number. What would be the De-value of the 12C160-molecule in a kJ mol"? (n) = 2170.21( n + 13.461 n + cm OA 1034 1737 OB. OC 1.51 OD. 12.94 OE 1046

A measurement of the vibrational energy levels of 12cl°0 applying Morse potential gives the relationship where n is the vibrational quantum number. What would be the De-value of the 12C160-molecule in a kJ mol"? (n) = 2170.21( n + 13.461 n + cm OA 1034 1737 OB. OC 1.51 OD. 12.94 OE 1046

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Related questions

Q: 8. Calculate the moment of inertia and the energy in the J = 1 rotational state for ¹H₂ in which the…

Q: The orange color of carrots and orange peel is due mostly to b-carotene, an organic compound…

A: The concentration of β-carotene in the oil from orange peel has to be determined by an experiment.

Q: P25.2 The ground electronic state of O₂ is and the next two highest energy states are ¹Ag (7918…

A: Electronic configuration of O2 = 1s22s22p4 In the case of the quantum mechanical energy difference…

Q: Calculate the bond length of carbon monoxide if the J=0 to J=1 transition for 1?Cl60 in its 5MIL

Q: Vibrations in the diatomic molecule CO can be approximated as a harmonic oscillator, where the…

A: The objective of this question is to determine the most likely change of the equilibrium bond…

Q: A molecule can have various types of energies (translational, rotational, vibrational, and…

Q: The wave function for the ground state of the harmonic oscillator is %0 (2) = Ce-mw/(2A)|z² where C…

A: In the given question the ground state of the hormonic oscillator is given in unnormalised form,…

Q: If we want to warm 6.74g of water from 13C to 32C with a microwave using 32.3cm wavelength IR…

A: 6.74 g of water is heated from 13 °C to 32 °C in a microwave using 32.3 cm of IR wavelength .We…

Q: This is from a study guide for a final, not a graded assignment.

A: Given:The moment of inertia of an SF6 molecule is I=3.07×10−45 kg⋅m2 The minimum energy needed to…

Q: The vibrational frequencies of most chemical bonds are around 10^13 per second. Calculate the the…

Q: Assuming the vibrations of a ¹4N2 molecule are equivalent to those of a harmonic oscillator with a…

Q: Sound waves, like light waves, can interfere with each other, giving maximum and minimum levels of…

A: a) Given information: Intensity of sound gets minimum from maximum when speaker one moved 0.16 m.…

Q: m 2 Which of the two models can be used to describe the vibrations of a diatomic molecule? Explain…

Q: What are differences between n→π* and π →π* bonding electron transition in Fluorescence? Please…

A: Absorption spectroscopy of organic compounds is generally based on n→π* and π→π* bonding electron…

Q: occupying the first excited state (J = 1) to the probability of occupying the ground state (J=0) For…

Q: What molecule will be curved in a smaller loop?

A: There are four stages in a mass spectrometer which we need to consider, these are – ionisation,…

Q: What are the atomic term symbols for an electronic configuration of s2p?

A: Electronic configuration of an atom describes the arrangement of electrons in orbitals of an atom.

Q: 421) The moment of inertia of an SF, molecule is 3.07 x 10 kg m. What is the minimum energy needed…

A: Given, the moment of inertia of an SF6 molecule = 3.07×10-45 kg m2 The minimum energy needed to…

Q: The Carbon monoxide molecule, CO, has an energy difference of 4.77 x 10 -4 eV. The wavelength of…

A: To determine the bond length r0 of the carbon monoxide (CO) molecule based on the given wavelength…

Q: The rotational spectrum of CH* has been observed in the planetary nebula NGC 7027.* The spectrum…

A: In the rotational spectrum of a molecule, the series of lines is separated by '2 B', where, 'B' is…

Q: Calculate the wavlength (in nm) of electromagnetic radiation with a frequency of 5.8 x 1014 s-1.

A: Wavelength of an electromagnetic wave can be defined as the distance between one crest or trough to…

Q: Assuming reasonable bond lengths, estimate the frequency of the J=15 – 14 transition in the linear…

A: The answer is attached below-

Concept explainers

Techniques and applications of quantum theory

Quantum theory, often known as quantum physics, is the foundation of modern physics and encompasses the nature and behavior of matter and energy at the atomic and molecular levels. As the exact nature and behavior of atomic and subatomic particles are impossible to determine, the laws of classical physics do not apply to this discipline. As a result, quantum field theory is primarily based on assumptions and probabilities.

Question

A measurement of the vibrational energy levels of 12cl00 applying Morse potential gives the relationship
Pm) = 2170.21(a +)em – 13.461(a +) em
where n is the vibrational quantum number. What would be the De-value of the 12C160-molecule in a kJ mol-l?
-I – 13.461n+
cm
OA 1034
O B. 1737
OC.1.51
O D. 12.94
OE 1046

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2: Calculations

VIEW

Step 3: Answer

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Techniques and Applications of Quantum Theory

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.

Similar questions

5. Determine yy for each of the following wavefunctions: (i =V-1) a) y (x) = e b) y(0) = sin 0 +i cose c) w(x) = A · e*.
Using a simple particle-in-a-box model for the multiple bonding in 1,2-butadiene and the n = 2 wave function for the weakest bound electron, calculate the probability of finding the electron in an 0.1 interval centered midway between the two inner carbon atoms (that is, the center is at x = 2.11 Å, so this interval is from x1 = 2.06 Å to x2 = 2.16 Å). Then calculate the probability of finding the electron in an 0.1 interval centered midway between an end carbon atom and the carbon atom that is double-bonded to it in the Lewis dot structure. (You may calculate the appropriate integrals or estimate the relevant areas under the curve graphically.) Then recalculate the probabilities by approximating the integral as |Ψ(x0)|^2 ∆x, where x0 is evaluated in the middle of the range from x1 to x2.
a) What terms can arise from the (He)2s22p13d1 excited configuration of carbon? Terms: b) What levels can the following terms possess:/ 1.5S 2.3F 3.5p
Assume that for ¹H35 Cl molecule the rotational quantum number J is 11 and vibrational quantum number n = 0. The isotopic mass of ¹H atom is 1.0078 amu and the isotopic mass of 35 C1 atom is 34.9688 amu, k = 516 N · m¯¹, and x = 127.5 pm. Part E Calculate the period for vibration. Express your answer in seconds to three significant figures. Tvibrational = Part F Submit Previous Answers 1.12x10-14 s Correct Correct answer is shown. Your answer 1.1181.10-¹4 = 1.1181x10-14s was either rounded differently or used a different number of significant figures than required for this part. Calculate the period for rotation. Express your answer in seconds to four significant figures. Trotational = ΑΣΦ W ? S