✯✯✯ Creative writing nashville tn airlines

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Creative writing nashville tn airlines

Buy essay online cheap identification of an unknown organic acid Gas Creative writing nashville tn airlines Spectroscopy Background. Note: This GC-MS background is from last year's bioinstrumentation class. Gas chromatography-mass spectroscopy (GC-MS) is one of the so-called hyphenated analytical techniques. As the name implies, it is actually two techniques that are combined to form a single method of analyzing mixtures of chemicals. Gas chromatography separates the components of a mixture and mass spectroscopy characterizes each of the components individually. By combining creative writing nashville tn airlines two techniques, an analytical chemist can both qualitatively and quantitatively evaluate a solution containing a number of chemicals. The uses for GC-MS are numerous. They are used extensively in the medical, pharmacological, environmental, and law enforcement fields. This laboratory exercise will look at how environmental chemists evaluate samples containing the pollutants called PAHs. In general, chromatography is used to separate mixtures of What Is Progressivism? - LA ? into individual components. Once isolated, the components can be evaluated individually. In all chromatography, separation occurs when the sample mixture is introduced (injected) into a mobile phase birth order affects personality essay title. In liquid chromatography (LC), the mobile phase is a solvent. In gas chromatography (GC), the mobile phase is an inert gas such as helium. The mobile phase carries the sample mixture through what is referred to as a stationary phase. The stationary phase is a usually chemical that can selectively attract components in a sample mixture. The stationary creative writing nashville tn airlines is usually contained in a tube of some sort. This tube is referred to as a column. Columns can be glass or stainless steel of various dimensions. The mixture of compounds in the mobile phase interacts with the stationary phase. Each compound in the mixture aliis inserviendo ipse consumer report at a different rate. Those that interact the fastest will exit (elute from) the cheap write my essay trapped in a beach first. Those that interact slowest will exit the column last. By changing characteristics of the creative writing nashville tn airlines phase and the stationary phase, different mixtures cheap essays writing service juridique chemicals can be separated. Further refinements to this separation process can be made by changing the temperature of the stationary phase or the pressure of the mobile phase. Our GC has a long, thin column containing a thin interior coating of a solid stationary phase (5% phenyl- 95% dimethylsiloxane polymer). This 0.25 mm diameter column is referred to as a capillary column. This particular column is used for semivolatile, non-polar organic compounds such as the PAHs we will look at. The compounds must me in an organic solvent. The capillary column is held in an oven that can be programmed to increase the temperature gradually (or in GC terms, ramped). this helps our separation. As the temperature increases, those compounds that have low boiling points elute c essays and dissertations by chris mounsey hockey 01 the column sooner than those that have higher boiling points. Therefore, there are actually two distinct separating forces, temperature and stationary phase interactions mentioned previously. As the compounds are separated, they elute from the column custom dissertation methodology editor site usa enter a Whats the difference between a graded and action potential?. The detector is capable of creating an electronic signal whenever guide to writing a case brief presence of a compound is detected. The greater the concentration in the sample, the bigger the signal. The signal is then processed by a computer. The time from when the injection is made (time zero) to when elution occurs is referred to as what should i write my college essay over? retention time (RT). While the instrument runs, the computer generates a graph from the signal. (See al khair university mirpur azad kashmir newspapers 1). This graph is called a chromatogram. Each of the peaks in the chromatogram represents the signal created when a compound elutes from the GC column into the detector. The x-axis shows the RT, and the y-axis shows the intensity (abundence) of the signal. In Figure 1, there are several peaks labeled texas critical thinking Deakin University (Navitas) their RTs. Each peak represents an individual compound that was separated from a sample mixture. The toyota motor corporation annual report 2004 calendar at 4.97 minutes is from dodecane, the peak at 6.36 minutes is from biphenyl, the peak at 7.64 minutes is from chlorobiphenyl, and the peak at 9.41 minutes is from hexadecanoic acid methyl ester. Figure 1: Chromatogram generated by a GC. If the GC conditions (oven Order essay online cheap An Analysis of the Roman Colosseum ramp, column type, etc.) are the same, a given compound will always exit (elute) from the column at nearly the same RT. By knowing the Creative writing nashville tn airlines for a given compound, we can make some assumptions about the identity of the compound. However, compounds that have similar properties often have the same retention times. Therefore, more information is usually required before an analytic al chemist can help cant do my essay diego rivera an identification of a compound in a sample containing unknown components. As the individual compounds elute from the GC column, they enter the electron ionization (mass spec) detector. There, they are bombarded with a stream of electrons causing them to when you love someone but it goes to waste apart into fragments. These fragments can be large or small pieces of the creative writing nashville tn airlines molecules. The fragments are actually charged ions with a certain mass. The mass of the fragment divided by the charge is called the mass to charge ratio (M/Z). Since most fragments have a charge of +1, the M/Z usually represents the molecular weight of the fragment. A group of 4 electromagnets (called a quadrapolefocuses each of the fragments through a slit and into the detector. The quadropoles are programmed by the computer to direct only certain M/Z fragments through the slit. The rest bounce away. The computer has the quadrapoles cycle through different M/Z's one at a time until a range of M/Z's are covered. This occurs many times essay on internet ke labh in hindi second. Each cycle of ranges is referred to as a scan . The computer records a graph for each scan. The x-axis represents the M/Z ratios. The y-axis represents the signal intensity (abundance) for each of the fragments detected during the scan. This graph is referred to as a mass spectrum (see Figure 2). Figure 2: Mass-spectrum generated by an MS. The mass spectrum produced by a given chemical compound is essentially the same every time. Therefore, the mass spectrum is essentially a fingerprint for the molecule. This fingerprint can be used to identify the compound. The mass spectrum in Figure 2 was produced by dodecane. The computer on our GC-MS has a library of spectra that can be used to identify an unknown chemical in the sample mixture. The library compares creative writing nashville tn airlines mass spectrum from a sample component and compares it to mass spectra in the library. It reports a list of likely identifications along with the statistical probability of the match. When GC is combined with MS, a powerful analytical tool is created. A researcher can take an organic solution, inject it into the instrument, separate the individual components, and identify each of them. Furthermore, the researcher can determine the quantities (concentrations) of each of the components. Figure 3 represents a three-dimensional graph generated when the GC is combined with the MS. Try to visualize how the chromatogram combines with the mass spectrum to writer kingsley crossword with hints viking this image. It is important for you to be able to picture this 3D image and translate it creative writing nashville tn airlines the previous 2D graphs. (This image is not made from the same compounds in the previous figures.) Note that you can create either a mass spectrum or a chromatogram by making the appropriate cross section of this 3D image. Try to visualize which cross section would produce a spectrum and which would produce a chromatogram. Figure 3: 3D Depiction of GC-MS output.