Lecture 11. IR Theory. Next Class: Lecture Problem 4 due Thin-Layer Chromatography
|
|
- Oliver Richardson
- 5 years ago
- Views:
Transcription
1 Lecture 11 IR Theory Next Class: Lecture Problem 4 due Thin-Layer Chromatography This Week In Lab: Ch 6: Procedures 2 & 3 Procedure 4 (outside of lab) Next Week in Lab: Ch 7: PreLab Due Quiz 4 Ch 5 Final Report Due
2 Spectroscopy NMR (Nuclear Magnetic Resonance Spectroscopy): Uses radio waves (electromagnetic radiation) Interacts with sample s nuclei in the presence of a magnet Effect: nuclei flip and relax (known as resonance) 1 H NMR: Determine bond connectivities/pieces of a structure, whole structure IR (Infrared Spectroscopy) IR radiation Interacts with molecule as a whole Effect: bond vibrations within molecule IR Use: Determine the functional groups present in a structure: -OH, C=O, C-O, NH 2, C=C, C C, C=N, C N
3 An IR Spectrum of Hexanol
4 IR Spectroscopy Main Use: To detect the presence or absence of a functional group (specific bonds) in a molecule How It Works: 1. Bonds vibrate freely at specific wavelengths (wavenumbers) 2. Want to cause the bonds to increase the magnitude of this vibrational frequency 3. Subject compound to IR radiation, cm -1 cm -1 is the unit for wavenumber (ν) (The numbers of waves within 1 cm) ν is directly proportional to energy (unlike wavelength) 4. Bonds absorb energy equal to their natural vibrational energy - it is quantized. This absorption of energy causes a change in dipole moment for the bond. 5. Upon absorption, bonds stretch and/or bend; the IR measures this absorption.
5 Vibrational Modes of Bonds
6 Correlation Chart Specific bonds absorb specific IR radiation and signals will appear within certain wavenumber ranges (similar to NMR). Your lab notebook also has an IR correlation chart.
7 Correlation Chart Specific bonds absorb specific IR radiation and signals will appear within certain wavenumber ranges (similar to NMR). Correlation of Bond Stretching and IR Absorption (See also Correlation Chart & Table in Lab Guide) Type of Bond Group Family of Compounds Wavenumber Range (cm -1 ) Single Bonds C H Alkanes =C H Alkenes, aromatics C H Alkynes O H Alcohols N H Amines C O Ethers, Esters, Alcohols Carboxylic Acids Double Bonds C=C Alkenes, aromatics C=O Carbonyls Aldehydes, ketones Carboxylic acids Esters, amides C=N Imines Triple Bonds C C Alkynes C N Nitriles
8 IR spectrum of hexanoic acid O OH Functional group region: Fingerprint region: cm cm -1 Most useful portion of More difficult to interpret; may IR spectrum contain useful information Evaluate this portion for your spectral unknown
9 Different bond stretches & what their signals look like in IR: A: O-H stretch (strong, broad) C: C-H stretch (strong, sharp) E: C C or C N stretch (sharp) F: C=O stretch (strong, medium to sharp) G: C=C stretch (sharp) J: C-O stretch (strong, medium) K: C-X stretch (sharp)
10 Lab Guide Problem 16.1 A sample is known to have the molecular formula C 4 H 10 O and to be one of two constitutional isomers, either t-butyl alcohol or isopropyl methyl ether. What is the structure of the unknown?
11 Lab Guide Problem 16.2(a) Indicate how the following pairs of compounds could be distinguished using characteristic IR peaks: (a) Benzaldehyde (C 6 H 5 O) and benzoic acid (C 6 H 5 COOH) 1. Consider each structure: 2. Determine the main differences that would be seen in IR.
12 Lab Guide Problem An unknown oxygen-containing compound is suspected of being an alcohol, a ketone, or a carboxylic acid. Its IR spectrum shows a broad strong peak at cm -1 and a strong, sharp peak at 1700 cm -1. What kind of compound is it? Consider what type of bonds appear in the ranges given. Refer to correlation chart. Broad peak at cm -1 Strong, sharp peak at 1700 cm -1
13 Lab Guide Problem A compound with molecular formula C 4 H 8 O shows no absorption in the IR region near 1700 cm -1 or 3400 cm -1. What can you deduce about its structure? Propose one possible structure. What can you deduce about its structure? Propose one possible structure. 1. Calculate HDI. 2. Give possible structure(s):
Infrared Spectroscopy
Infrared Spectroscopy Introduction Spectroscopy is an analytical technique which helps determine structure. It destroys little or no sample. The amount of light absorbed by the sample is measured as wavelength
More informationInfrared Spectroscopy An Instrumental Method for Detecting Functional Groups
Infrared Spectroscopy An Instrumental Method for Detecting Functional Groups 1 The Electromagnetic Spectrum Infrared Spectroscopy I. Physics Review Frequency, υ (nu), is the number of wave cycles that
More informationORGANIC - BROWN 8E CH INFRARED SPECTROSCOPY.
!! www.clutchprep.com CONCEPT: PURPOSE OF ANALYTICAL TECHNIQUES Classical Methods (Wet Chemistry): Chemists needed to run dozens of chemical reactions to determine the type of molecules in a compound.
More informationIntroduction. The analysis of the outcome of a reaction requires that we know the full structure of the products as well as the reactants
Introduction The analysis of the outcome of a reaction requires that we know the full structure of the products as well as the reactants Spectroscopy and the Electromagnetic Spectrum Unlike mass spectrometry,
More informationRadiant energy is proportional to its frequency (cycles/s = Hz) as a wave (Amplitude is its height) Different types are classified by frequency or
CHEM 241 UNIT 5: PART B INFRA-RED RED SPECTROSCOPY 1 Spectroscopy of the Electromagnetic Spectrum Radiant energy is proportional to its frequency (cycles/s = Hz) as a wave (Amplitude is its height) Different
More informationSPECTROSCOPY MEASURES THE INTERACTION BETWEEN LIGHT AND MATTER
SPECTROSCOPY MEASURES THE INTERACTION BETWEEN LIGHT AND MATTER c = c: speed of light 3.00 x 10 8 m/s (lamda): wavelength (m) (nu): frequency (Hz) Increasing E (J) Increasing (Hz) E = h h - Planck s constant
More informationInfrared Spectroscopy: Identification of Unknown Substances
Infrared Spectroscopy: Identification of Unknown Substances Suppose a white powder is one of the four following molecules. How can they be differentiated? H N N H H H H Na H H H H H A technique that is
More informationCHEM 3.2 (AS91388) 3 credits. Demonstrate understanding of spectroscopic data in chemistry
CHEM 3.2 (AS91388) 3 credits Demonstrate understanding of spectroscopic data in chemistry Spectroscopic data is limited to mass, infrared (IR) and 13 C nuclear magnetic resonance (NMR) spectroscopy. Organic
More informationLecture 13 Organic Chemistry 1
EM 232 rganic hemistry I at hicago Lecture 13 rganic hemistry 1 Professor Duncan Wardrop February 23, 2010 1 EM 232 rganic hemistry I at hicago Spectroscopy & Spectrometry hapter 13 2 EM 232 rganic hemistry
More informationStructure Determination. How to determine what compound that you have? One way to determine compound is to get an elemental analysis
Structure Determination How to determine what compound that you have? ne way to determine compound is to get an elemental analysis -basically burn the compound to determine %C, %H, %, etc. from these percentages
More informationChapter 12 Mass Spectrometry and Infrared Spectroscopy
Organic Chemistry, 6 th Edition L. G. Wade, Jr. Chapter 12 Mass Spectrometry and Infrared Spectroscopy Jo Blackburn Richland College, Dallas, TX Dallas County Community College District 2006, Prentice
More informationInfrared Spectroscopy
Infrared Spectroscopy IR Spectroscopy Used to identify organic compounds IR spectroscopy provides a 100% identification if the spectrum is matched. If not, IR at least provides information about the types
More informationORGANIC - BRUICE 8E CH MASS SPECT AND INFRARED SPECTROSCOPY
!! www.clutchprep.com CONCEPT: PURPOSE OF ANALYTICAL TECHNIQUES Classical Methods (Wet Chemistry): Chemists needed to run dozens of chemical reactions to determine the type of molecules in a compound.
More informationQuímica Orgânica I. Ciências Farmacêuticas Bioquímica Química. IR spectroscopy AFB QO I 2007/08 1 AFB QO I 2007/08 2
Química Orgânica I Ciências Farmacêuticas Bioquímica Química AFB QO I 2007/08 1 IR spectroscopy AFB QO I 2007/08 2 1 Adaptado de: Organic Chemistry, 6th Edition; L. G. Wade, Jr. Organic Chemistry, William
More informationHow to Interpret an Infrared (IR) Spectrum
How to Interpret an Infrared (IR) Spectrum Infrared (IR) Spectroscopy allows the identification of particular bonds present within molecules. In this class we have simplified IR analysis by only focusing
More informationInfrared Spectroscopy
Infrared Spectroscopy (Chapter 12) 1 This reaction from Ochem 1 How do we know if it worked? The reactant is cyclohexene; the product is cyclohexanol. How can we tell the difference? Infrared Spectroscopy
More informationApplication of IR Raman Spectroscopy
Application of IR Raman Spectroscopy 3 IR regions Structure and Functional Group Absorption IR Reflection IR Photoacoustic IR IR Emission Micro 10-1 Mid-IR Mid-IR absorption Samples Placed in cell (salt)
More informationLearning Guide for Chapter 3 - Infrared Spectroscopy
Learning Guide for hapter 3 - Infrared Spectroscopy I. Introduction to spectroscopy - p 1 II. Molecular vibrations - p 3 III. Identifying functional groups - p 6 IV. Interpreting an IR spectrum - p 12
More information12. Structure Determination: Mass Spectrometry and Infrared Spectroscopy
12. Structure Determination: Mass Spectrometry and Infrared Spectroscopy Determining the Structure of an Organic Compound The analysis of the outcome of a reaction requires that we know the full structure
More informationCHE 325 SPECTROSCOPY (A) CHAP 13A ASSIGN CH 2 CH CH 2 CH CHCH 3
CE 325 SPECTRSCPY (A) CAP 13A ASSIGN 1. Which compound would have a UV absorption band at longest wavelength? A. I B. II C. III D. IV E. V C CC 3 CC C 2 C CC 3 I II III C 2 C C 2 C CC 3 IV V 2. Select
More informationInfrared Spectroscopy: How to use the 5 zone approach to identify functional groups
Infrared Spectroscopy: How to use the 5 zone approach to identify functional groups Definition: Infrared Spectroscopy is the study of the Infrared Spectrum. An Infrared Spectrum is the plot of photon energy
More informationLearning Guide for Chapter 3 - Infrared Spectroscopy
Learning Guide for hapter 3 - Infrared Spectroscopy I. Introduction to spectroscopy - p 1 II. Molecular vibrations - p 3 III. Identifying functional groups - p 6 IV. Interpreting an IR spectrum - p 12
More informationTable 8.2 Detailed Table of Characteristic Infrared Absorption Frequencies
Table 8.2 Detailed Table of Characteristic Infrared Absorption Frequencies The hydrogen stretch region (3600 2500 cm 1 ). Absorption in this region is associated with the stretching vibration of hydrogen
More informationSymmetric Stretch: allows molecule to move through space
BACKGROUND INFORMATION Infrared Spectroscopy Before introducing the subject of IR spectroscopy, we must first review some aspects of the electromagnetic spectrum. The electromagnetic spectrum is composed
More informationMore information can be found in Chapter 12 in your textbook for CHEM 3750/ 3770 and on pages in your laboratory manual.
CHEM 3780 rganic Chemistry II Infrared Spectroscopy and Mass Spectrometry Review More information can be found in Chapter 12 in your textbook for CHEM 3750/ 3770 and on pages 13-28 in your laboratory manual.
More informationEXPT. 7 CHARACTERISATION OF FUNCTIONAL GROUPS USING IR SPECTROSCOPY
EXPT. 7 CHARACTERISATION OF FUNCTIONAL GROUPS USING IR SPECTROSCOPY Structure 7.1 Introduction Objectives 7.2 Principle 7.3 Requirements 7.4 Strategy for the Interpretation of IR Spectra 7.5 Practice Problems
More informationCHM 223 Organic Chemistry I Prof. Chad Landrie. Lecture 10: September 20, 2018 Ch. 12: Spectroscopy mass spectrometry infrared spectroscopy
M 223 Organic hemistry I Prof. had Landrie Lecture 10: September 20, 2018 h. 12: Spectroscopy mass spectrometry infrared spectroscopy i>licker Question onsider a solution that contains 65g R enantiomer
More informationGeneral Infrared Absorption Ranges of Various Functional Groups
General Infrared Absorption Ranges of Various Functional Groups Frequency Range Bond Type of Compound cm -1 Intensity C Alkanes 2850-2970 Strong 1340-1470 Strong C Alkenes 3010-3095 Medium 675-995 Strong
More informationObjective 4. Determine (characterize) the structure of a compound using IR, NMR, MS.
Objective 4. Determine (characterize) the structure of a compound using IR, NMR, MS. Skills: Draw structure IR: match bond type to IR peak NMR: ID number of non-equivalent H s, relate peak splitting to
More information1.1. IR is part of electromagnetic spectrum between visible and microwave
CH2SWK 44/6416 IR Spectroscopy 2013Feb5 1 1. Theory and properties 1.1. IR is part of electromagnetic spectrum between visible and microwave 1.2. 4000 to 400 cm -1 (wave numbers) most interesting to organic
More informationInfrared Spectroscopy. Provides information about the vibraions of functional groups in a molecule
Infrared Spectroscopy Provides information about the vibraions of functional groups in a molecule Therefore, the functional groups present in a molecule can be deduced from an IR spectrum Two important
More informationExperiment 11: NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY
Experiment 11: NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY Purpose: This is an exercise to introduce the use of nuclear magnetic resonance spectroscopy, in conjunction with infrared spectroscopy, to determine
More informationC h a p t e r F o u r t e e n: Structure Determination: Mass Spectrometry and Infrared Spectroscopy
C h a p t e r F o u r t e e n: Structure Determination: Mass Spectrometry and Infrared Spectroscopy Cl OH Cl An electron ionization mass spectrum of 2,5-dichlorophenol CHM 323: Summary of Important Concepts
More informationORGANIC - EGE 5E CH UV AND INFRARED MASS SPECTROMETRY
!! www.clutchprep.com CONCEPT: IR SPECTROSCOPY- FREQUENCIES There are specific absorption frequencies in the functional group region that we should be familiar with EXAMPLE: What are the major IR absorptions
More information7a. Structure Elucidation: IR and 13 C-NMR Spectroscopies (text , , 12.10)
2009, Department of Chemistry, The University of Western Ontario 7a.1 7a. Structure Elucidation: IR and 13 C-NMR Spectroscopies (text 11.1 11.5, 12.1 12.5, 12.10) A. Electromagnetic Radiation Energy is
More informationORGANIC - CLUTCH CH ANALYTICAL TECHNIQUES: IR, NMR, MASS SPECT
!! www.clutchprep.com CONCEPT: PURPOSE OF ANALYTICAL TECHNIQUES Classical Methods (Wet Chemistry): Chemists needed to run dozens of chemical reactions to determine the type of molecules in a compound.
More informationAdvanced Pharmaceutical Analysis
Lecture 2 Advanced Pharmaceutical Analysis IR spectroscopy Dr. Baraa Ramzi Infrared Spectroscopy It is a powerful tool for identifying pure organic and inorganic compounds. Every molecular compound has
More informationORGANIC - CLUTCH CH ANALYTICAL TECHNIQUES: IR, NMR, MASS SPECT
!! www.clutchprep.com CONCEPT: PURPOSE OF ANALYTICAL TECHNIQUES Classical Methods (Wet Chemistry): Chemists needed to run dozens of chemical reactions to determine the type of molecules in a compound.
More informationE35 SPECTROSCOPIC TECHNIQUES IN ORGANIC CHEMISTRY
E35 SPECTRSCPIC TECNIQUES IN RGANIC CEMISTRY Introductory Comments. These notes are designed to introduce you to the basic spectroscopic techniques which are used for the determination of the structure
More informationWelcome to Organic Chemistry II
Welcome to Organic Chemistry II Erika Bryant, Ph.D. erika.bryant@hccs.edu Class Syllabus 3 CHAPTER 12: STRUCTURE DETERMINATION 4 What is this solution Soda Tea Coffee??? 5 What is this solution Soda Tea
More informationLab 6. Use of VSEPR to Predict Molecular Structure and IR Spectroscopy to Identify an Unknown
Lab 6. Use of VSEPR to Predict Molecular Structure and IR Spectroscopy to Identify an Unknown Prelab Assignment Before coming to lab: In addition to reading introduction of this lab handout, read and understand
More informationMASS and INFRA RED SPECTROSCOPY
MASS and INFRA RED SPECTRSCPY Mass Spectroscopy The mass spectrometer was looked at in Unit 1. It was noted there that compounds produce fragmentation patterns when passes through a mass spectrometer.
More informationCHEM 3760 Orgo I, F14 (Lab #11) (TECH 710)
CHEM 3760 Orgo I, F14 (Lab #11) (TECH 710) Identification of an Unknown by IR PRELAB (PreLab is due before entering the lab.) Every student has to prepare for each experiment by answering the Pre-Laboratory
More information(2) Read each statement carefully and pick the one that is incorrect in its information.
Organic Chemistry - Problem Drill 17: IR and Mass Spectra No. 1 of 10 1. Which statement about infrared spectroscopy is incorrect? (A) IR spectroscopy is a method of structure determination based on the
More informationInfrared Spectroscopy used to analyze the presence of functional groups (bond types) in organic molecules How IR spectroscopy works:
Infrared Spectroscopy used to analyze the presence of functional groups (bond types) in organic molecules It is the study of the interaction of infrared energy with organic molecules; the process analyzes
More informationUnit 2 Organic Chemistry. 2.3 Structural Analysis Part 2:
CFE ADVANCED HIGHER Unit 2 Organic Chemistry 2.3 Structural Analysis Part 2: Mass Spectroscopy Infra-red Spectroscopy NMR Proton Spectroscopy Answers to Questions in Notes Learning Outcomes Exam Questions
More informationOrganic Compound Identification Using Infrared Spectroscopy. Description
Return to paper Organic Compound Identification Using Infrared Spectroscopy Dr. Walt Volland, Bellevue Community College All rights reserved 1999, Bellevue, Washington Description This exercise is intended
More informationUnit 3 Organic Chemistry. 3.3 Structural Analysis Part 2:
Unit 3 Organic Chemistry 3.3 Structural Analysis Part 2: Mass Spectroscopy Infra-red Spectroscopy NMR Proton Spectroscopy Answers to Questions in Notes Learning Outcomes Exam Questions & Answers MODIFIED
More informationCarbon Compounds. Chemical Bonding Part 2
Carbon Compounds Chemical Bonding Part 2 Introduction to Functional Groups: Alkanes! Alkanes Compounds that contain only carbons and hydrogens, with no double or triple bonds.! Alkyl Groups A part of a
More informationMOLECULAR REPRESENTATIONS AND INFRARED SPECTROSCOPY
MOLEULAR REPRESENTATIONS AND INFRARED SPETROSOPY A STUDENT SOULD BE ABLE TO: 1. Given a Lewis (dash or dot), condensed, bond-line, or wedge formula of a compound draw the other representations. 2. Give
More informationCH 3. mirror plane. CH c d
CAPTER 20 Practice Exercises 20.1 The index of hydrogen deficiency is two. The structural possibilities include two double bonds, a double do 20.3 (a) As this is an alkane, it contains only C and and has
More informationIncreasing energy. ( 10 4 cm -1 ) ( 10 2 cm -1 )
The branch of science which deals with the interaction of electromagnetic radiation with matter is called spectroscopy The energy absorbed or emitted in each transition corresponds to a definite frequency
More informationSpectroscopy. Fourier Transform Infrared (FT-IR) Spectroscopy
Fourier Transform Infrared (FT-IR) Spectroscopy Learning objectives Learning outcomes After completing this course, the student will be able to: Recognize the concept and principle of FT-IR Spectroscopy
More informationChemistry 343- Spring 2008
Chemistry 343- Spring 2008 27 Chapter 2- Representative Carbon Compounds: Functional Groups, Intermolecular Forces and IR Spectroscopy A. ydrocarbons: Compounds composed of only C and Four Basic Types:
More information6. CHARACTERIZATION OF AS (III) IONS BIOSORPTION BY THE LIVE, HEAT AND ALKALINE- TREATED FUNGAL BIOMASS ON THE BASICS OF SURFACE STUDIES
6. CHARACTERIZATION OF AS (III) IONS BIOSORPTION BY THE LIVE, HEAT AND ALKALINE- TREATED FUNGAL BIOMASS ON THE BASICS OF SURFACE STUDIES 6. Introduction Infrared spectroscopy is a technique used to identify
More informationVibrational Spectroscopy
Vibrational Spectroscopy In this part of the course we will look at the kind of spectroscopy which uses light to excite the motion of atoms. The forces required to move atoms are smaller than those required
More informationIR absorption spectroscopy
IR absorption spectroscopy IR spectroscopy - an analytical technique which helps determine molecules structure When a molecule absorbs IR radiation, the vibrational energy of the molecule increase! The
More informationClosed book exam, no books, notebooks, notes, etc. allowed. However, calculators, rulers, and molecular model sets are permitted.
Massachusetts Institute of Technology Organic Chemistry 5.13 Friday, September 26, 2003 Prof. Timothy F. Jamison Hour Exam #1 Name (please both print and sign your name) Official Recitation Instructor
More informationDetermining the Structure of an Organic Compound
Chapter 12- Structure Determination: Mass Spectrometry and Infrared Spectroscopy Ashley Piekarski, Ph.D. Determining the Structure of an Organic Compound The analysis of the outcome of a reac=on requires
More informationVibrations. Matti Hotokka
Vibrations Matti Hotokka Identify the stuff I ve seen this spectrum before. I know what the stuff is Identify the stuff Let s check the bands Film: Polymer Aromatic C-H Aliphatic C-H Group for monosubstituted
More informationi e l d f Energy (E) = Direction visible ultraviolet X-ray gamma infrared
rganic Structure Determination Analytical hemistry Instrument-based methods for determination of structure of organic molecules 1) Infrared Spectroscopy - yields functional groups 2) M Spectroscopy - very
More informationTopic 2.11 ANALYTICAL TECHNIQUES. High Resolution Mass Spectrometry Infra-red Spectroscopy
Topic 2.11 ANALYTICAL TECHNIQUES High Resolution Mass Spectrometry Infra-red Spectroscopy HIGH RESOLUTION MASS SPECTROMETRY The technique of mass spectrometry was used in Unit 1 to: a) determine the relative
More information1 Which of the following cannot be used to detect alcohol in a breathalyser test? Fractional distillation. Fuel cell. Infrared spectroscopy
1 Which of the following cannot be used to detect alcohol in a breathalyser test? Fractional distillation Fuel cell Infrared spectroscopy Reduction of dichromate(vi) ions 2 Propanal, H 3 H 2 HO, and propanone,
More information8. Spectrum continued
I. The ν(x-h) region alcohols H-bonding in alcohols Figs. 2.30,2.32,2.59,2.61,2.45 w 3400-3200 ν(o-h) amines s neat carboxylic acids increasing dilution 3600 free ν(o-h) w HN(C 4 H 9 ) 2 -NHbroad m-s 3500-3100
More informationCHEMISTRY 341. Final Exam Tuesday, December 16, Problem 1 15 pts Problem 9 8 pts. Problem 2 5 pts Problem pts
CEMISTRY 341 Final Exam Tuesday, December 16, 1997 Name NAID Problem 1 15 pts Problem 9 8 pts Problem 2 5 pts Problem 10 21 pts Problem 3 26 pts Problem 11 15 pts Problem 4 10 pts Problem 12 6 pts Problem
More informationAnswers to Assignment #5
Answers to Assignment #5 A. 9 8 l 2 5 DBE (benzene + 1 DBE) ( 9 2(9)+2-9 8+1+1 = 10 ˆ 5 DBE) nmr pattern of two doublets of equal integration at δ7.4 and 7.9 ppm means the group (the δ7.9 shift) IR band
More informationSTRUCTURE ELUCIDATION BY INTEGRATED SPECTROSCOPIC METHODS
Miscellaneous Methods UNIT 14 STRUCTURE ELUCIDATION BY INTEGRATED SPECTROSCOPIC METHODS Structure 14.1 Introduction Objectives 14.2 Molecular Formula and Index of Hydrogen Deficiency 14.3 Structural Information
More informationFebruary 8, 2018 Chemistry 328N
Lecture 7 UV-Vis spectroscopy February 8, 2018 First Midterm Exam When: Wednesday, 2/14 When: 7-9 PM (please do not be late) Where: WEL 2.122 This room!!! What: Covers material through today s lecture
More informationAn alcohol is a compound obtained by substituting a hydoxyl group ( OH) for an H atom on a carbon atom of a hydrocarbon group.
Derivatives of Hydrocarbons A functional group is a reactive portion of a molecule that undergoes predictable reactions. All other organic compounds can be considered as derivatives of hydrocarbons (i.e.,
More informationStructure Determination
There are more than 5 million organic compounds, the great majority of which are colourless liquids or white solids. Identifying or at least characterising determining some of its properties and features
More informationLook for absorption bands in decreasing order of importance:
1. Match the following to their IR spectra (30 points) Look for absorption bands in decreasing order of importance: a e a 2941 1716 d f b 3333 c b 1466 1.the - absorption(s) between 3100 and 2850 cm-1.
More informationCHEM 3760 Orgo I, S12, Exp 5 (Lab #6) (TECH 710: IR Unknown)
CHEM 3760 rgo I, S12, Exp 5 (Lab #6) (TECH 710: IR Unknown) LAB REPRT ISTRUCTIS Identifying an Unknown Compound by Infrared Spectroscopy (IR) Carefully read all instructions and complete Section I on page
More informationTypes of Molecular Vibrations
Important concepts in IR spectroscopy Vibrations that result in change of dipole moment give rise to IR absorptions. The oscillating electric field of the radiation couples with the molecular vibration
More informationWilliam H. Brown & Christopher S. Foote
Requests for permission to make copies of any part of the work should be mailed to:permissions Department, Harcourt Brace & Company, 6277 Sea Harbor Drive, Orlando, Florida 32887-6777 William H. Brown
More informationInfrared Spectroscopy
Reminder: These notes are meant to supplement, not replace, the laboratory manual. Infrared Spectroscopy History and Application: Infrared (IR) radiation is simply one segment of the electromagnetic spectrum
More informationHWeb27 ( ; )
HWeb27 (9.1-9.2; 9.12-9.18) 28.1. Which of the following cannot be determined about a compound by mass spectrometry? [a]. boiling point [b]. molecular formula [c]. presence of heavy isotopes (e.g., 2 H,
More information1.1 Is the following molecule aromatic or not aromatic? Give reasons for your answer.
Page 1 QUESTION ONE 1.1 Is the following molecule aromatic or not aromatic? Give reasons for your answer. 1.2 List four criteria which compounds must meet in order to be considered aromatic. Page 2 QUESTION
More informationAromatic Hydrocarbons
Aromatic Hydrocarbons Aromatic hydrocarbons contain six-membered rings of carbon atoms with alternating single and double carbon-carbon bonds. The ring is sometimes shown with a circle in the center instead
More information13.24: Mass Spectrometry: molecular weight of the sample
hapter 13: Spectroscopy Methods of structure determination Nuclear Magnetic Resonances (NMR) Spectroscopy (Sections 13.3-13.19) Infrared (IR) Spectroscopy (Sections 13.20-13.22) Ultraviolet-visible (UV-Vis)
More informationCHEM 203. Midterm Exam 1 October 31, 2008 ANSWERS. This a closed-notes, closed-book exam. You may use your set of molecular models
CEM 203 Midterm Exam 1 ctober 31, 2008 Your name: ANSWERS This a closed-notes, closed-book exam You may use your set of molecular models This exam contains 8 pages Time: 1h 30 min 1. / 15 2. / 16 3. /
More informationInfrared spectroscopy Basic theory
Infrared spectroscopy Basic theory Dr. Davide Ferri Paul Scherrer Institut 056 310 27 81 davide.ferri@psi.ch Importance of IR spectroscopy in catalysis IR Raman NMR XAFS UV-Vis EPR 0 200 400 600 800 1000
More informationChem 1075 Chapter 19 Organic Chemistry Lecture Outline
Chem 1075 Chapter 19 Organic Chemistry Lecture Outline Slide 2 Introduction Organic chemistry is the study of and its compounds. The major sources of carbon are the fossil fuels: petroleum, natural gas,
More informationCalculate a rate given a species concentration change.
Kinetics Define a rate for a given process. Change in concentration of a reagent with time. A rate is always positive, and is usually referred to with only magnitude (i.e. no sign) Reaction rates can be
More informationEXPT. 9 DETERMINATION OF THE STRUCTURE OF AN ORGANIC COMPOUND USING UV, IR, NMR AND MASS SPECTRA
EXPT. 9 DETERMINATION OF THE STRUCTURE OF AN ORGANIC COMPOUND USING UV, IR, NMR AND MASS SPECTRA Structure 9.1 Introduction Objectives 9.2 Principle 9.3 Requirements 9.4 Strategy for the Structure Elucidation
More informationCHEM1902/4 Worksheet 2: Isomerism and Structure Elucidation Model 4: Isomerism
CHEM1902/4 Worksheet 2: Isomerism and Structure Elucidation Model 4: Isomerism There are three broad classes of isomers. Use the definitions below to help you decide the type of isomerism shown by each
More informationAlkanes, Alkenes and Alkynes
Alkanes, Alkenes and Alkynes Hydrocarbons Hydrocarbons generally fall into 2 general groupings, aliphatic hydrocarbons and aromatic hydrocarbons. Aliphatic hydrocarbons contain chains and rings of hydrocarbons,
More information1. Which compound would you expect to have the lowest boiling point? A) NH 2 B) NH 2
MULTIPLE CICE QUESTINS Topic: Intermolecular forces 1. Which compound would you expect to have the lowest boiling point? A) N 2 B) N 2 C) N D) E) N Ans: : N 2 D Topic: Molecular geometry, dipole moment
More informationvideo 14.4 isomers isomers Isomers have the molecular formula but are rearranged in a structure with different properties. Example: Both C 4 H 10
video 14.4 isomers isomers Isomers have the molecular formula but are rearranged in a structure with different properties. Example: Both C 4 H 10 Butane Methylpropane 1 match the isomers drawing an isomer
More informationUsing NMR and IR Spectroscopy to Determine Structures Dr. Carl Hoeger, UCSD
Using NMR and IR Spectroscopy to Determine Structures Dr. Carl Hoeger, UCSD The following guidelines should be helpful in assigning a structure from NMR (both PMR and CMR) and IR data. At the end of this
More informationHomework Assignment #3
Chemistry 12600 Spring 2016 Homework Assignment #3 1. Determine whether each of the following statements is true or false. If the statement is false, modify and rewrite it so that it is a true statement.
More informationOAT Organic Chemistry - Problem Drill 19: NMR Spectroscopy and Mass Spectrometry
OAT Organic Chemistry - Problem Drill 19: NMR Spectroscopy and Mass Spectrometry Question No. 1 of 10 Question 1. Which statement concerning NMR spectroscopy is incorrect? Question #01 (A) Only nuclei
More informationChem 213 Final 2012 Detailed Solution Key for Structures A H
Chem 213 Final 2012 Detailed Solution Key for Structures A H COMPOUND A on Exam Version A (B on Exam Version B) C 8 H 6 Cl 2 O 2 DBE = 5 (aromatic + 1) IR: 1808 cm 1 suggests an acid chloride since we
More informationInfra-red Spectroscopy
Molecular vibrations are associated with the absorption of energy (infrared activity) by the molecule as sets of atoms (molecular moieties) vibrate about the mean center of their chemical bonds. Infra-red
More information1. Predict the structure of the molecules given by the following spectral data: a Mass spectrum:m + = 116
Additional Problems for practice.. Predict the structure of the molecules given by the following spectral data: a Mass spectrum:m + = IR: weak absorption at 9 cm - medium absorption at cm - NMR 7 3 3 C
More information2FAMILIES OF CARBON COMPOUNDS:
P1: PBU/VY P2: PBU/VY Q: PBU/VY T1: PBU Printer: Bind Rite JWL338-02 JWL338-Solomons-v1 April 23, 2010 21:49 2AMILIES ARB MPUDS: UTIAL GRUPS, ITERMLEULAR RES, AD IRARED (IR) SPETRSPY SLUTIS T PRBLEMS 2.1
More informationChemistry 213 Practical Spectroscopy
Chemistry 213 Practical Spectroscopy Dave Berg djberg@uvic.ca Elliott 314 A course in determining structure by spectroscopic methods Different types of spectroscopy afford different information about molecules
More informationOrganic Chemistry II (CHE ) Examination I February 11, Name (Print legibly): Key. Student ID#:
rganic hemistry II (HE 232-001) Examination I February 11, 2009 Name (Print legibly): Key (last) (first) Student ID#: PLEASE observe the following: You are allowed to have scratch paper (provided by me),
More information第 2 章官能基團, 分子間的各種作用力及紅外光譜簡介 (Functional Groups, Intermolecular Forces and Infrared Spectroscopy)
第 2 章官能基團, 分子間的各種作用力及紅外光譜簡介 (Functional Groups, Intermolecular Forces and Infrared Spectroscopy) 一 ) The Functional groups in organic chemistry 1) ydrocarbons: Alkanes, alkenes, and alkynes aromatic compounds
More informationC h a p t e r S i x t e e n: Nuclear Magnetic Resonance Spectroscopy. An 1 H NMR FID of ethanol
0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 C h a p t e r S i x t e e n: Nuclear Magnetic Resonance Spectroscopy An 1 NMR FID of ethanol Note: Problems with italicized numbers
More informationChapter 14 Spectroscopy
hapter 14 Spectroscopy There are four major analytical techniques used for identifying the structure of organic molecules 1. Nuclear Magnetic Resonance or NMR is the single most important technique for
More information