1. Review either the IR spectrum of 1-butanol here Download 1-butanol hereor the same one which was provided in your lab manual. Find and label significant peaks in both the furnished IR spectra of 1-butanol and also the IR spectrum which you obtained during your lab period.

Below: report the wave numbers of prominent peaks; which spectrum the peak came from; and what does the peak signify.

For example: 1725 wavenumbers - Cyclohexanone - Carbon double-bonded to an oxygen.

2. How many compounds were present in the product mixture? What is the most likely identity of the compounds?

3. Give the order of elution (from GC) for the compounds listed above (largest to smallest retention times

Software Version : 6.3.2.0646 Reprocess Number : ajgalern-pc: 2825 Operator : manager Sample Number : 038 AutoSampler : BUILT-IN Instrument Name : Clarus480 Instrument Serial # : None Delay Time : 0.00 min Sampling Rate : 25.0000 pts/s Sample Volume : 1.000000 ul Sample Amount : 1.0000 Data Acquisition Time : 11/20/2023 10:57:35 PM Date : 11/21/2023 3:12:40 PM Sample Name : Study : PreparationBromobutane Rack/Vial : 0/38 Channel : B A/D mV Range : 1000 End Time : 8.50 min Area Reject : 0.000000 Dilution Factor : 1.00 Cycle : 38 Raw Data File : C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.raw Result File : C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.rst Inst Method : c:\penexe\tcws\ver6.3.2\methods\preparation of bromobutane v2 from C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.raw Proc Method : C:\PenExe\TcWS\Ver6.3.2\Methods\Preparation of Bromobutane V2.mth from C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.rst Calib Method : C:\PenExe\TcWS\Ver6.3.2\Methods\Preparation of Bromobutane V2.mth from C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.rst Report Format File: C:\PenExe\Reports\Preparation of Bromobutanes.rpt Sequence File : C:\PenExe\TcWS\Ver6.3.2\Sequences\Preparation of Bromobutanes.seq Channel Parameters Data will be collected from channel B Delay Time : 0.00 min Run Time : 8.50 min Sampling Rate : 25.0000 pts/s Channel A Channel B Signal Source DetA DetB Analog Output INT INT Attenuation 0 0 Offset 5.0 mV 5.0 mV Autosampler Method Syringe Capacity : 5.0 µL Injection Speed : Normal Viscosity Delay : 0 Pre-injection Solvent Washes : 0 Post-injection Solvent Washes (A) : 3 Injection Volume : 0.5 µL Sample Pumps : 5 Wash/Waste Vial Set : 1 Pre-injection Sample Washes : 2 Carriers Parameters Carrier A control : Press - PSIG Initial Setpoint : 4.3 Initial Hold : 0.00 min Carrier B control : None Initial Setpoint : 0 Initial Hold : 0.00 min Auxiliary Pneumatics Number Type Setpoint 1 0 2 0 3 0 4 0 Valve configuration and settings Valve 1 : SPLIT Off Valve 3 : NONE Valve 5 : NONE Valve 2 : NONE Valve 4 : NONE Valve 6 : NONE Detector Parameters Detector A Detector B Detector NONE TCD Range 1 4 Time Constant 200 200 Autozero ON ON Polarity POS Filament Voltage or Bead Power ON ON Page 2 of 2 11/21/2023 3:12:40 PM Result: C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.rst Heated Zones Injector A: Setpoint : 175 °C Injector B: Setpoint : OFF Detector A : 0°C Detector B : 100°C Auxiliary (TCD) : 100°C Oven Program Cryogenics : Off Initial Temp : 50°C Initial Hold : 8.50 min Total Run Time : 8.50 min Maximum Temp : 200°C Equilibration Time : 0.0 min Timed Events V1 set to On at -0.05 min V1 set to Off at 0.05 min Sample Notes: Preparation of Bromobutanes V2 0.59 1.86 2.02 2.93 3.10 3.96 5.52 V1 OFF 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5 8.0 Time [min] 20 40 60 Response [mV] Preparation of Bromobutanes Peak Time Area Height Area Norm. Area # [min] [uV*sec] [uV] [%] [%] 1 0.593 399.90 63.11 0.03 0.03 2 1.855 2197.26 611.13 0.18 0.18 3 2.016 8262.35 4826.74 0.70 0.70 4 2.932 78602.25 13146.47 6.61 6.61 5 3.097 12018.00 1653.98 1.01 1.01 6 3.961 1040237.42 63589.49 87.51 87.51 7 5.519 47052.39 804.85 3.96 3.96 1188769.57 84695.77 100.00 100.
Transcribed Image Text:1-Butanol % Transmission 110 100 90 70 40 30 20 10 Mattson Instruments FTIR wwwluulublobobulu fuuluu 1 0 4000 3500 3000 2500 signal gain: 1 scans: 32 2000 1750 Wavenumber Jan. 15 '96 5:17 PM 1500 1250 Cell: NaCl plates. VE 1000 750 500 resolution 4 cm-1 detector: DTGS KBr

Question

1. Review either the IR spectrum of 1-butanol here Download 1-butanol hereor the same one which was provided in your lab manual. Find and label significant peaks in both the furnished IR spectra of 1-butanol and also the IR spectrum which you obtained during your lab period.

Below: report the wave numbers of prominent peaks; which spectrum the peak came from; and what does the peak signify.

For example: 1725 wavenumbers - Cyclohexanone - Carbon double-bonded to an oxygen.

2. How many compounds were present in the product mixture? What is the most likely identity of the compounds?

3. Give the order of elution (from GC) for the compounds listed above (largest to smallest retention times

Software Version : 6.3.2.0646 Reprocess Number : ajgalern-pc: 2825 Operator : manager Sample Number : 038 AutoSampler : BUILT-IN Instrument Name : Clarus480 Instrument Serial # : None Delay Time : 0.00 min Sampling Rate : 25.0000 pts/s Sample Volume : 1.000000 ul Sample Amount : 1.0000 Data Acquisition Time : 11/20/2023 10:57:35 PM Date : 11/21/2023 3:12:40 PM Sample Name : Study : PreparationBromobutane Rack/Vial : 0/38 Channel : B A/D mV Range : 1000 End Time : 8.50 min Area Reject : 0.000000 Dilution Factor : 1.00 Cycle : 38 Raw Data File : C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.raw Result File : C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.rst Inst Method : c:\penexe\tcws\ver6.3.2\methods\preparation of bromobutane v2 from C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.raw Proc Method : C:\PenExe\TcWS\Ver6.3.2\Methods\Preparation of Bromobutane V2.mth from C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.rst Calib Method : C:\PenExe\TcWS\Ver6.3.2\Methods\Preparation of Bromobutane V2.mth from C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.rst Report Format File: C:\PenExe\Reports\Preparation of Bromobutanes.rpt Sequence File : C:\PenExe\TcWS\Ver6.3.2\Sequences\Preparation of Bromobutanes.seq Channel Parameters Data will be collected from channel B Delay Time : 0.00 min Run Time : 8.50 min Sampling Rate : 25.0000 pts/s Channel A Channel B Signal Source DetA DetB Analog Output INT INT Attenuation 0 0 Offset 5.0 mV 5.0 mV Autosampler Method Syringe Capacity : 5.0 µL Injection Speed : Normal Viscosity Delay : 0 Pre-injection Solvent Washes : 0 Post-injection Solvent Washes (A) : 3 Injection Volume : 0.5 µL Sample Pumps : 5 Wash/Waste Vial Set : 1 Pre-injection Sample Washes : 2 Carriers Parameters Carrier A control : Press - PSIG Initial Setpoint : 4.3 Initial Hold : 0.00 min Carrier B control : None Initial Setpoint : 0 Initial Hold : 0.00 min Auxiliary Pneumatics Number Type Setpoint 1 0 2 0 3 0 4 0 Valve configuration and settings Valve 1 : SPLIT Off Valve 3 : NONE Valve 5 : NONE Valve 2 : NONE Valve 4 : NONE Valve 6 : NONE Detector Parameters Detector A Detector B Detector NONE TCD Range 1 4 Time Constant 200 200 Autozero ON ON Polarity POS Filament Voltage or Bead Power ON ON Page 2 of 2 11/21/2023 3:12:40 PM Result: C:\PenExe\Data\CH2411Fall2023\Bromo\Vial038.rst Heated Zones Injector A: Setpoint : 175 °C Injector B: Setpoint : OFF Detector A : 0°C Detector B : 100°C Auxiliary (TCD) : 100°C Oven Program Cryogenics : Off Initial Temp : 50°C Initial Hold : 8.50 min Total Run Time : 8.50 min Maximum Temp : 200°C Equilibration Time : 0.0 min Timed Events V1 set to On at -0.05 min V1 set to Off at 0.05 min Sample Notes: Preparation of Bromobutanes V2 0.59 1.86 2.02 2.93 3.10 3.96 5.52 V1 OFF 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.0 7.5 8.0 Time [min] 20 40 60 Response [mV] Preparation of Bromobutanes Peak Time Area Height Area Norm. Area # [min] [uV*sec] [uV] [%] [%] 1 0.593 399.90 63.11 0.03 0.03 2 1.855 2197.26 611.13 0.18 0.18 3 2.016 8262.35 4826.74 0.70 0.70 4 2.932 78602.25 13146.47 6.61 6.61 5 3.097 12018.00 1653.98 1.01 1.01 6 3.961 1040237.42 63589.49 87.51 87.51 7 5.519 47052.39 804.85 3.96 3.96 1188769.57 84695.77 100.00 100.

1-Butanol
% Transmission
110
100
90
70
40
30
20
10
Mattson Instruments FTIR
wwwluulublobobulu
fuuluu
1
0
4000 3500 3000 2500
signal gain: 1
scans: 32
2000
1750
Wavenumber
Jan. 15 '96 5:17 PM
1500
1250
Cell: NaCl plates.
VE
1000 750 500
resolution 4 cm-1
detector: DTGS KBr

Accepted Answer

The question is based on the concept of organic spectroscopy. We need to analyse the spectral data…

1-Butanol % Transmission 110 100 90 80 70 40 30 20 10 fuuluu 11 Mattson Instruments FTIR wwluullutbubunlı 4000 3500 3000 2500 signal gain: 1 scans: 32 2000 1750 Wavenumber Jan. 15 '96 5:17 PM 1500 1250 1000 Cell: NaCl plates 나 750 500 resolution 4 cm-1 detector PTGS KBr