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Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are?
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Vibrations of diatomic molecules can be represented as those of harmon...
Identifying the Halogen Molecules X2 and Y2
- Given Information:
- Fundamental vibrational frequencies: vX = 16.7 × 10^12 Hz, vY = 26.8 × 10^12 Hz
- Force constants: KX = 325 N/m, KY = 446 N/m
- Atomic masses: F (19.0 amu), Cl (35.5 amu), Br (79.9 amu)
- Calculation:
- The vibrational frequency of a diatomic molecule is given by the formula: ν = (1/2π) * √(K/μ), where K is the force constant and μ is the reduced mass of the molecule.
- Using the given data, we can calculate the reduced masses of the molecules X2 and Y2.
- For molecule X2: vX = (1/2π) * √(KX/mX), where mX is the atomic mass of X.
- Solving for mX, we find mX = KX / (4π^2 * vX^2).
- Substituting the values, we get mX = 325 / (4π^2 * (16.7 × 10^12)^2).
- Calculating mX gives us the atomic mass of X.
- Follow the same procedure to calculate the atomic mass of Y.
- Conclusion:
- Comparing the calculated atomic masses with the given atomic masses of F, Cl, and Br, we can identify the halogen molecules X2 and Y2.
- The molecule with the atomic mass closest to that of a halogen atom (F, Cl, or Br) will correspond to X2 and Y2.
By following the above calculations, you can determine the halogen molecules X2 and Y2 based on their fundamental vibrational frequencies and force constants.
- Given Information:
- Fundamental vibrational frequencies: vX = 16.7 × 10^12 Hz, vY = 26.8 × 10^12 Hz
- Force constants: KX = 325 N/m, KY = 446 N/m
- Atomic masses: F (19.0 amu), Cl (35.5 amu), Br (79.9 amu)
- Calculation:
- The vibrational frequency of a diatomic molecule is given by the formula: ν = (1/2π) * √(K/μ), where K is the force constant and μ is the reduced mass of the molecule.
- Using the given data, we can calculate the reduced masses of the molecules X2 and Y2.
- For molecule X2: vX = (1/2π) * √(KX/mX), where mX is the atomic mass of X.
- Solving for mX, we find mX = KX / (4π^2 * vX^2).
- Substituting the values, we get mX = 325 / (4π^2 * (16.7 × 10^12)^2).
- Calculating mX gives us the atomic mass of X.
- Follow the same procedure to calculate the atomic mass of Y.
- Conclusion:
- Comparing the calculated atomic masses with the given atomic masses of F, Cl, and Br, we can identify the halogen molecules X2 and Y2.
- The molecule with the atomic mass closest to that of a halogen atom (F, Cl, or Br) will correspond to X2 and Y2.
By following the above calculations, you can determine the halogen molecules X2 and Y2 based on their fundamental vibrational frequencies and force constants.
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Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are?
Question Description
Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are? for Physics 2024 is part of Physics preparation. The Question and answers have been prepared according to the Physics exam syllabus. Information about Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are? covers all topics & solutions for Physics 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are?.
Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are? for Physics 2024 is part of Physics preparation. The Question and answers have been prepared according to the Physics exam syllabus. Information about Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are? covers all topics & solutions for Physics 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are?.
Solutions for Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are? in English & in Hindi are available as part of our courses for Physics.
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Here you can find the meaning of Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are? defined & explained in the simplest way possible. Besides giving the explanation of
Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are?, a detailed solution for Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are? has been provided alongside types of Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are? theory, EduRev gives you an
ample number of questions to practice Vibrations of diatomic molecules can be represented as those of harmonic oscillators. Two halogen molecules X2 and Y2 have fundamental vibrational frequencies vX = 16.7 × 1012 Hz and vY = 26.8 × 1012 Hz, respectively. The respective force constants are KX = 325 N/m and KY = 446 N/m. The atomic masses of F, Cl and Br are 19.0, 35.5 and 79.9 atomic mass unit respectively. The halogen molecules X2 and Y2 are? tests, examples and also practice Physics tests.
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