Principles of Instrumental Analysis, 6th Edition
6th Edition
ISBN: 9788131525579
Author: Douglas A. Skoog, F. James Holler, Stanley R. Crouch
Publisher: Cenage Learning
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Chapter 20, Problem 20.1QAP
Interpretation Introduction
Interpretation:
The difference between the gaseous and the desorption sources and their advantages is to be stated.
Concept introduction:
Ion source is a device that is used to create ions of atoms and the molecules. The ion sources are of two types. These are gaseous sources and the desorption sources. These sources are used to produce ions for spectrometers, particle accelerators and ion engines.
Expert Solution & Answer
Answer to Problem 20.1QAP
The difference between the gaseous and the desorption sources is that gaseous sources first vaporize the sample and then form ions whereas desorption sources directly produce the ions of the sample.
Advantage of gaseous sources is that they ionize the thermally stable compounds. On the other hand, desorption sources ionize thermally unstable compounds.
Explanation of Solution
In the gaseous sources, the sample first gets vaporized and then gets ionized and in desorption sources, the sample which is solid or liquid, gets directly converted into the gaseous ions.
The advantages of the gaseous and the desorption sources are as follows.
- Gaseous sources: These sources are used to ionize the compounds which are thermally stable. These sources are much simple and fast.
- Desorption sources: These sources are used to ionize the compounds which are non-volatile and thermally unstable.
Conclusion
The difference between the gaseous and the desorption sources is that gaseous sources first vaporize the sample and then form ions whereas desorption sources directly produce the ions of the sample.
Advantage of gaseous sources is that they ionize the thermally stable compounds. On the other hand, desorption sources ionize thermally unstable compounds.
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n Unknown elemental metal was reacted with Hydrochloric Acid. It was determined that this reaction evolved Hydrogen gas and left the metal in solution in the 2+ oxidation state. The Unknown metal was then subjected to the same test as Magnesium in the “Molar Mass of Magnesium” lab. After some adjustments to get the volume of gas collected in the right range, the following results were obtained:
Mass of Metal used = 0.3682 g
P (atmospheric) = 761.1 mm Hg
Temperature of gas = 21.6 degrees C
Volume of gas collected = 67.5 ml
Difference in height of solution levels in the buret and beaker = 163.0mm
Vapour pressure of H20 at gas temperature = 19.349 mm Hg
Some Constants:
R = 0.0820575 L*Atm/mol/K = 62.3637 L*mmHg/mol/K
dsolution = 1.00g/ml
dHg = 13.6 g/ml
From this data, calculate and report the molar mass of the unknown metal with correct significant figures and unit
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