stion Completion Status: QUESTION 4 The mass spectra below is from a small biological molecule. The m/z of 750.5638 corresponds to the [M+H] adduct, therefore which of the following statements regarding the nitrogen rule is true: 2020-07-18 POS 18499 F #1354 RT: 7.27 AV: 1 NL F: FTMS CESI Full ms [110.00-2000.00] Relative Abundance 0 750.5638 100 90 80 70 60 50 751.5671 40 30 20 10 752.5701 0 745 750 755 m/z 760 The nominal mass of this molecule is an odd number, therefore it must have an odd number of nitrogens The nominal mass of this molecule is an odd number, therefore it must have an even number of nitrogens or no nitrogens The nominal mass of this molecule is an even number, therefore it must have an even number of nitrogens or no nitrogens The nominal mass of this molecule is an even number, therefore it must have an odd number of nitrogens

stion Completion Status: QUESTION 4 The mass spectra below is from a small biological molecule. The m/z of 750.5638 corresponds to the [M+H] adduct, therefore which of the following statements regarding the nitrogen rule is true: 2020-07-18 POS 18499 F #1354 RT: 7.27 AV: 1 NL F: FTMS CESI Full ms [110.00-2000.00] Relative Abundance 0 750.5638 100 90 80 70 60 50 751.5671 40 30 20 10 752.5701 0 745 750 755 m/z 760 The nominal mass of this molecule is an odd number, therefore it must have an odd number of nitrogens The nominal mass of this molecule is an odd number, therefore it must have an even number of nitrogens or no nitrogens The nominal mass of this molecule is an even number, therefore it must have an even number of nitrogens or no nitrogens The nominal mass of this molecule is an even number, therefore it must have an odd number of nitrogens

Principles of Instrumental Analysis

7th Edition

ISBN:9781305577213

Author:Douglas A. Skoog, F. James Holler, Stanley R. Crouch

Publisher:Douglas A. Skoog, F. James Holler, Stanley R. Crouch

Chapter10: Atomic Emission Spectrometry

Section: Chapter Questions

Problem 10.11QAP

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