a)
Interpretation:
The type of analyte that is used to respond to thermal conductivity gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to thermal conductivity of gas chromatography detector
a)
Explanation of Solution
All analytes responds to thermal conductivity gas chromatography detector.
b)
Interpretation:
The type of analyte that is used to respond to flame ionization gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to flame ionization gas chromatography detector
b)
Explanation of Solution
Carbon atoms containing Hydrogen atoms responds to flame ionization gas chromatography detector.
c)
Interpretation:
The type of analyte that is used to respond to electron capture gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to electron capture gas chromatography detector
c)
Explanation of Solution
Molecules containing Halogens,
d)
Interpretation:
The type of analyte that is used to respond to flame photometric gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to flame photometric of gas chromatography detector
d)
Explanation of Solution
Phosphorus, Sulphur and other elements selected by wavelength responds to flame photometric gas chromatography detector.
e)
Interpretation:
The type of analyte that is used to respond to Nitrogen-phosphorus gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to Nitrogen-phosphorus gas chromatography detector
e)
Explanation of Solution
Phosphorus, Nitrogen and some hydrocarbons responds to Nitrogen-phosphorus gas chromatography detector.
f)
Interpretation:
The type of analyte that is used to respond to Photoionization gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to Photoionization gas chromatography detector
f)
Explanation of Solution
g)
Interpretation:
The type of analyte that is used to respond to Sulphur chemiluminecence gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to Sulphur chemiluminecence gas chromatography detector
g)
Explanation of Solution
Compounds of Sulphurs responds to Sulphur chemiluminecence gas chromatography detector.
h)
Interpretation:
The type of analyte that is used to respond to atomic emission gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to atomic emission gas chromatography detector
h)
Explanation of Solution
Elements that are selected individually by wavelength responds to atomic emission gas chromatography detector.
i)
Interpretation:
The type of analyte that is used to respond to mass spectrometer gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to mass spectrometer gas chromatography detector
i)
Explanation of Solution
All analytes responds to mass spectrometer gas chromatography detector.
j)
Interpretation:
The type of analyte that is used to respond to vacuum ultraviolet absorbance gas chromatography detector has to be identified.
Concept Introduction:
Gas chromatography detector:
Flame ionization detector and thermal conductivity detector are most commonly used detector in gas chromatography. They both are sensitive to wide range of components and work over wide range of concentrations. Thermal conductivity detector is used to detect any component other than carrier gas whereas Flame ionization detector is sensitive to Hydrocarbons and is more sensitive than Thermal conductivity detector. Water cannot be detected by Flame ionization detector. Thermal conductivity detector is non-destructive and could be operated in series but Flame ionization detector is destructive one.
Some other detector includes catalytic combustion detector, discharge ionization detector, Electron capture detector, Flame photometric detector etc.
To identify the type of analyte that is used to respond to vacuum ultraviolet absorbance gas chromatography detector
j)
Explanation of Solution
Structural isomers, all those compounds that absorb Vacuum ultraviolet region except carrier gas (Helium, Nitrogen and Hydrogen) responds to vacuum ultraviolet absorbance gas chromatography detector.
Want to see more full solutions like this?
Chapter 24 Solutions
Quantitative Chemical Analysis 9e And Sapling Advanced Single Course For Analytical Chemistry (access Card)
- 1. Part 1: Naming Organic Compounds он H₁C-C-CH3 CH3 Br CI CI 2. Br-CH-CH-CH₂ H₂C-CH-C= -CH-CH2-CH3 3. HC-CH-CH-C-OH 5. H₂C-CH-CH₂-OH 7. OH 4. CH CH₂-CH₂ 6. сно CH-CH-CH-CH₂-CH₂ H₁₂C-CH-CH-CH-CH₁₂-CH₁₂ 8. OHarrow_forward11 Organic Chemistry Organic Nomenclature Practice Name/Functional Group n-butane Formula Structural Formula (1) C4tt10 H3C C- (2) CH3CH2CH2 CH 3 H₂ -CH3 Н2 name & functional group (1) and (2) OH H₁₂C Н2 name only (1) and (2) name only (1) and (2) H₁C - = - CH₂ Н2 HC=C-C CH3arrow_forwardUnder aqueous basic conditions, nitriles will react to form a neutral organic intermediate 1 that has an N atom in it first, and then they will continue to react to form the final product 2: NC H₂O он- H₂O 1 2 OH Draw the missing intermediate 1 and the final product 2 in the box below. You can draw the two structures in any arrangement you like. Click and drag to start drawing a structure.arrow_forward
- Assign these COSY Spectrumarrow_forwardAssign these C-NMR and H-NMR Spectrumarrow_forwardPredict the product of this organic reaction: IZ + HO i P+H₂O Specifically, in the drawing area below draw the skeletal ("line") structure of P. If there is no reasonable possibility for P, check the No answer box under the drawing area. No Answer Click and drag to start drawing a structure. ☐ :arrow_forward
- Predict the products of this organic reaction: 0 O ----- A + KOH ? CH3-CH2-C-O-CH2-C-CH3 Specifically, in the drawing area below draw the condensed structure of the product, or products, of this reaction. (If there's more than one product, draw them in any arrangement you like, so long as they aren't touching.) If there aren't any products because this reaction won't happen, check the No reaction box under the drawing area. No reaction Click anywhere to draw the first atom of your structure. X ⑤ èarrow_forwardPredict the products of this organic reaction: O CH3 + H2O + HCI A A? CH3-CH2-C-N-CH3 Specifically, in the drawing area below draw the condensed structure of the product, or products, of this reaction. If there's more than one product, draw them in any arrangement you like, so long as they aren't touching. If there aren't any products because this reaction won't happen, check the No reaction box under the drawing area. No Reaction Click anywhere to draw the first atom of your structure.arrow_forwardWhat is the missing reactant in this organic reaction? R+ HO-C-CH2-CH3 0= CH3 CH3 —CH, C−NH—CH CH3 + H₂O Specifically, in the drawing area below draw the condensed structure of R. If there is more than one reasonable answer, you can draw any one of them. If there is no reasonable answer, check the No answer box under the drawing area. Note for advanced students: you may assume no products other than those shown above are formed. No Answer Click anywhere to draw the first atom of your structure. €arrow_forward
- 个 CHEM&131 9267 - $25 - Intro to Mail - Hutchison, Allison (Student x Aktiv Learnin https://app.aktiv.com Draw the product of the reaction shown below. Ignore inorganic byproducts. + Na2Cr2O7 Acetone, H2SO4 Type here to search Dryng OH W Prarrow_forwardPredict the products of this organic reaction: OH + NaOH A? Specifically, in the drawing area below draw the skeletal ("line") structure of the product, or products, of this reaction. (If there's more than one product, draw them in any arrangement you like, so long as they aren't touching.) If there aren't any products because this reaction won't happen, check the No reaction box under the drawing area. No reaction Click and drag to start drawing a structure. ✓ Sarrow_forwardPredict the products of this organic reaction: CH3-C-O-CH2-CH2-C-CH3 + H₂O ? A Specifically, in the drawing area below draw the condensed structure of the product, or products, of this reaction. (If there's more than one product, draw them in any arrangement you like, so long as they aren't touching.) If there aren't any products because this reaction won't happen, check the No reaction box under the drawing area. No reaction Click anywhere to draw the first atom of your structure. :☐ darrow_forward
ChemistryChemistryISBN:9781305957404Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCostePublisher:Cengage Learning
ChemistryChemistryISBN:9781259911156Author:Raymond Chang Dr., Jason Overby ProfessorPublisher:McGraw-Hill Education
Principles of Instrumental AnalysisChemistryISBN:9781305577213Author:Douglas A. Skoog, F. James Holler, Stanley R. CrouchPublisher:Cengage Learning
Organic ChemistryChemistryISBN:9780078021558Author:Janice Gorzynski Smith Dr.Publisher:McGraw-Hill Education
Chemistry: Principles and ReactionsChemistryISBN:9781305079373Author:William L. Masterton, Cecile N. HurleyPublisher:Cengage Learning
Elementary Principles of Chemical Processes, Bind...ChemistryISBN:9781118431221Author:Richard M. Felder, Ronald W. Rousseau, Lisa G. BullardPublisher:WILEY