B.Sc. VI (6th) Semester Organic Spectroscopy: Rotational Spectra MCQs

MCQ Mock Test for B.Sc. 6th Semester Organic Spectroscopy: Rotational Spectra

If you’re preparing for your B.Sc. 6th Semester Organic Spectroscopy exams, especially focusing on Rotational Spectroscopy, you’re in the right place. This post provides a comprehensive MCQ mock test to help you revise important concepts and practice typical exam questions. Perfect for students studying rotational spectra, microwave spectroscopy, and molecular rotational transitions.

🔍 Why Study Rotational Spectroscopy?

Rotational Spectroscopy is a key topic in Organic and Physical Chemistry, particularly important for understanding molecular structure, bond length, and dipole moment. It forms the foundation for microwave spectroscopy, often included in B.Sc. Chemistry syllabi.

✅ Rotational Spectra MCQ Mock Test

Try these Multiple Choice Questions (MCQs) designed according to the latest B.Sc. 6th semester syllabus.

Rotational Spectroscopy MCQ Mock Test For B.Sc. VI Semester

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This Rotational Spectroscopy MCQ Mock Test is a great way to prepare for your B.Sc. 6th Semester Organic Spectroscopy exam. Understanding these fundamentals will also help you in higher studies and competitive exams like GATE and CSIR-NET.

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1. Answered
2. Review

1. Question 1 of 12

   1. Question

   Category: Spectroscopy

   Rotational spectra are observed in which region of the electromagnetic spectrum?
   (A) Ultraviolet
   (B) Infrared
   (C) Visible
   (D) Microwave

   • A
   • B
   • C
   • D
2. Question 2 of 12

   2. Question

   Category: Spectroscopy

   Which type of molecules show pure rotational spectra?
   (A) Molecules with no dipole moment
   (B) Symmetric molecules
   (C) Molecules with permanent dipole moment
   (D) All molecules

   • A
   • B
   • C
   • D
3. Question 3 of 12

   3. Question

   Category: Spectroscopy

   The selection rule for rotational transitions is:
   (A) ΔJ = ±2
   (B) ΔJ = ±1
   (C) ΔJ = ±3
   (D) ΔJ = 0

   • A
   • B
   • C
   • D
4. Question 4 of 12

   4. Question

   Category: Spectroscopy

   The energy of a rotational level is given by:
   (A) E = BJ
   (B) E = J(J+1)
   (C) E = B J(J+1)
   (D) E = BJ²

   • A
   • B
   • C
   • D
5. Question 5 of 12

   5. Question

   Category: Spectroscopy

   The spacing between successive rotational lines is:
   (A) 2B
   (B) B
   (C) J(J+1)
   (D) Variable

   • A
   • B
   • C
   • D
6. Question 6 of 12

   6. Question

   Category: Spectroscopy

   Which molecule will not exhibit rotational spectra?
   (A) HCl
   (B) CO
   (C) O₂
   (D) HF

   • A
   • B
   • C
   • D
7. Question 7 of 12

   7. Question

   Category: Spectroscopy

   The moment of inertia $I$ for a diatomic molecule is calculated as:

   (A) I=μr
   (B) I=μr²
   (C) I=r/μ
   (D) I=μ2r

   • A
   • B
   • C
   • D
8. Question 8 of 12

   8. Question

   Category: Spectroscopy

   The rotational constant B is related to moment of inertia as:

   (A) B∝I
   (B) B∝√I​
   (C) B∝1/I​
   (D) B is independent of I

   • A
   • B
   • C
   • D
9. Question 9 of 12

   9. Question

   Category: Spectroscopy

   Rotational spectroscopy provides information about:
   (A) Molecular weight
   (B) Bond energy
   (C) Bond length
   (D) Electron density

   • A
   • B
   • C
   • D
10. Question 10 of 12

    10. Question

    Category: Spectroscopy

    A molecule without a permanent dipole moment:
    (A) Will not show rotational spectra
    (B) Will show weak spectra
    (C) Will show infrared spectra
    (D) None of the above

    • A
    • B
    • C
    • D
11. Question 11 of 12

    11. Question

    Category: Spectroscopy

    Which of the following has the highest moment of inertia?
    (A) H₂
    (B) CO
    (C) ICl
    (D) HF

    • A
    • B
    • C
    • D
12. Question 12 of 12

    12. Question

    Category: Spectroscopy

    A rigid rotator is an ideal model that assumes:
    (A) Constant bond length
    (B) Constant dipole moment
    (C) No centrifugal distortion
    (D) Both A and C

    • A
    • B
    • C
    • D

📘 Topics Covered in This Mock Test

• Rotational energy levels
• Selection rules
• Moment of inertia
• Rotational constant (B)
• Diatomic and polyatomic molecule behavior
• Dipole moment requirement
• Microwave spectroscopy fundamentals

📚 Study Tips for B.Sc. Organic Spectroscopy (Rotational Spectra)

• Revise basic formulas: E = B J(J+1), I = ur^2, etc.
• Focus on selection rules: only transitions where ΔJ=±1\Delta J = \pm1 are allowed.
• Learn about types of molecules that can and cannot show rotational spectra.
• Practice numerical problems involving bond length and moment of inertia.

❓ FAQs: Rotational Spectroscopy MCQs for B.Sc. Chemistry

Q1. Are these questions suitable for CSIR-NET or GATE?
While the difficulty level here is suited for B.Sc. exams, the fundamental concepts overlap with entrance exams like CSIR-NET and GATE.

Q2. What is the best book for rotational spectroscopy?
“Spectroscopy” by P.S. Kalsi and “Fundamentals of Molecular Spectroscopy” by C.N. Banwell are great references.

Q3. Can symmetric molecules show rotational spectra?
Only asymmetric molecules with a permanent dipole moment exhibit rotational spectra.

🎯 Conclusion

This Rotational Spectroscopy MCQ Mock Test is a great way to prepare for your B.Sc. 6th Semester Organic Spectroscopy exam. Understanding these fundamentals will also help you in higher studies and competitive exams like GATE and CSIR-NET.

For more Chemistry MCQs and Study Notes, bookmark this site and stay tuned!