Principles of Instrumental Analysis
Principles of Instrumental Analysis
7th Edition
ISBN: 9781305577213
Author: Douglas A. Skoog, F. James Holler, Stanley R. Crouch
Publisher: Cengage Learning
Question
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Chapter 19, Problem 19.8QAP
Interpretation Introduction

(a)

Interpretation:

The Larmor frequency of 13C in magnetic field of 1.41 T should be predicted.

Concept introduction:

Nuclear magnetic reasonance is a technique that is used to predict the structural formula of the compound. NMR spectroscopy involves the examination of the nucleus under the external magnetic field.

Expert Solution
Check Mark

Answer to Problem 19.8QAP

The Larmor frequency of 13C in magnetic field of 1.41 T is 15 MHz.

Explanation of Solution

The Larmor frequency is calculated by the formula,

v0=γB02π

Where,

  • B0 is the magnetic field.
  • γ is the magnetogyric ratio.

The magnetogyric ratio for 13C is taken as 6.7283×107T1s1.

The magnetic field is given as 1.41 T.

Substitute magnetogyric ratio and magnetic field in above expression.

v0=6.7283×107T1s1×1.41T2×3.14=9.486903×1076.28s1=1.5×107s1=15×106Hz×(1MHz106Hz)=15MHz

Therefore, the Larmor frequency of 13C in magnetic field of 1.41 T is 15 MHz.

Interpretation Introduction

(b)

Interpretation:

The Larmor frequency of 13C in magnetic field of 4.69 T should be predicted.

Concept introduction:

Nuclear magnetic reasonance is a technique that is used to predict the structural formula of the compound. NMR spectroscopy involves the examination of the nucleus under the external magnetic field.

Expert Solution
Check Mark

Answer to Problem 19.8QAP

The Larmor frequency of 13C in magnetic field of 4.69 T is 50 MHz.

Explanation of Solution

The Larmor frequency is calculated by the formula,

v0=γB02π

Where,

  • B0 is the magnetic field.
  • γ is the magnetogyric ratio.

The magnetogyric ratio for 13C is taken as 6.7283×107T1s1.

The magnetic field is given as 4.69 T.

Substitute magnetogyric ratio and magnetic field in above expression.

v0=6.7283×107T1s1×4.69T2×3.14=31.555727×1076.28s1=5.0×107s1=50×106Hz×(1MHz106Hz)=50MHz

Therefore, the Larmor frequency of 13C in magnetic field of 4.69 T is 50 MHz.

Interpretation Introduction

(c)

Interpretation:

The Larmor frequency of 13C in magnetic field of 7.05 T should be predicted.

Concept introduction:

Nuclear magnetic reasonance is a technique that is used to predict the structural formula of the compound. NMR spectroscopy involves the examination of the nucleus under the external magnetic field.

Expert Solution
Check Mark

Answer to Problem 19.8QAP

The Larmor frequency of 13C in magnetic field of 7.05 T is 76 MHz.

Explanation of Solution

The Larmor frequency is calculated by the formula,

v0=γB02π

Where,

  • B0 is the magnetic field.
  • γ is the magnetogyric ratio.

The magnetogyric ratio for 13C is taken as 6.7283×107T1s1.

The magnetic field is given as 7.05 T.

Substitute magnetogyric ratio and magnetic field in above expression.

v0=6.7283×107T1s1×7.05T2×3.14=47.434515×1076.28s1=7.6×107s1=76×106Hz×(1MHz106Hz)=76MHz

Therefore, the Larmor frequency of 13C in magnetic field of 7.05 T is 76 MHz.

Interpretation Introduction

(d)

Interpretation:

The Larmor frequency of 13C in magnetic field of 11.7 T should be predicted.

Concept introduction:

Nuclear magnetic reasonance is a technique that is used to predict the structural formula of the compound. NMR spectroscopy involves the examination of the nucleus under the external magnetic field.

Expert Solution
Check Mark

Answer to Problem 19.8QAP

The Larmor frequency of 13C in magnetic field of 11.7 T is 125 MHz.

Explanation of Solution

The Larmor frequency is calculated by the formula,

v0=γB02π

Where,

  • B0 is the magnetic field.
  • γ is the magnetogyric ratio.

The magnetogyric ratio for 13C is taken as 6.7283×107T1s1.

The magnetic field is given as 11.7 T.

Substitute magnetogyric ratio and magnetic field in above expression.

v0=6.7283×107T1s1×11.7T2×3.14=78.72111×1076.28s1=12.5×107s1=125×106Hz×(1MHz106Hz)=125MHz

Therefore, the Larmor frequency of 13C in magnetic field of 11.7 T is 125 MHz.

Interpretation Introduction

(e)

Interpretation:

The Larmor frequency of 13C in magnetic field of 18.8 T should be predicted.

Concept introduction:

Nuclear magnetic reasonance is a technique that is used to predict the structural formula of the compound. NMR spectroscopy involves the examination of the nucleus under the external magnetic field.

Expert Solution
Check Mark

Answer to Problem 19.8QAP

The Larmor frequency of 13C in magnetic field of 18.8 T is 201 MHz.

Explanation of Solution

The Larmor frequency is calculated by the formula,

v0=γB02π

Where,

  • B0 is the magnetic field.
  • γ is the magnetogyric ratio.

The magnetogyric ratio for 13C is taken as 6.7283×107T1s1.

The magnetic field is given as 18.8 T.

Substitute magnetogyric ratio and magnetic field in above expression.

v0=6.7283×107T1s1×18.8T2×3.14=126.49204×1076.28s1=20.1×107s1=201×106Hz×(1MHz106Hz)=201MHz

Therefore, the Larmor frequency of 13C in magnetic field of 18.8 T is 201 MHz.

Interpretation Introduction

(f)

Interpretation:

The Larmor frequency of 13C in magnetic field of 21.2 T should be predicted.

Concept introduction:

Nuclear magnetic reasonance is a technique that is used to predict the structural formula of the compound. NMR spectroscopy involves the examination of the nucleus under the external magnetic field.

Expert Solution
Check Mark

Answer to Problem 19.8QAP

The Larmor frequency of 13C in magnetic field of 21.2 T is 227 MHz.

Explanation of Solution

The Larmor frequency is calculated by the formula,

v0=γB02π

Where,

  • B0 is the magnetic field.
  • γ is the magnetogyric ratio.

The magnetogyric ratio for 13C is taken as 6.7283×107T1s1.

The magnetic field is given as 21.2 T.

Substitute magnetogyric ratio and magnetic field in above expression.

v0=6.7283×107T1s1×21.2T2×3.14=142.63996×1076.28s1=22.7×107s1=227×106Hz×(1MHz106Hz)=227MHz

Therefore, the Larmor frequency of 13C in magnetic field of 21.2 T is 227 MHz.

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