Whether you decide to lease or buy is dependent on several factors, such as the type of item (real estate, equipment, or vehicle), the fair value of the asset, the company’s expected financial position over time, and the amount of capital your business currently possesses.Ī lease vs buy calculator is helpful in making the right choice. ![]() Chromatography Today, 52.When looking for real estate, equipment or vehicles for your organization, your team must make a lease vs buy decision. Intelligent use of Relative Response Factors in Gas Chromatography-Flame Ionisation Detection. A similar calculation yields the concentration of B. Since we know the peak areas of A and IS (from step 3), and the concentration of IS used, we can calculate the concentration of A.Į. The concentration of A can be determined by rearrangement of this equation: Conc. Then using the Response Factor and RRF equations: RRF A = 1.13 = Response factor A / Response factor IS RRF A= (Peak Area A / Conc. After analysis, the results required are the peak areas of A, B and IS.Ĥ) A simple calculation computes the concentration of A and B in the unknown.ī. Since the concentrations of A, B and IS are known, the results can be used to calculate the RRFs of A and B with respect to the IS thus: RRF A = Response factor A / Response factor IS RRF B = Response factor B / Response factor ISģ) Make up a sample of the unknown and a known concentration of IS and inject into the GC. The same concentration of IS should be used in the calibration and analysis samples.Ģ) Introduce the calibration sample into the GC. A simplified procedure is:ġ) Prepare a calibration sample, which should contain compounds A and B at a known concentration. Once the calibration is complete, the sample can be analysed and the concentrations of A and B in the unknown sample determined. To determine the ratio of two compounds A and B in a sample, first the GC has to be calibrated. It must be inert to the sample and must not react with the sample or any solvent used to dilute or prepare it for GC. Internal StandardĪn internal standard (IS) is a compound that is similar in physical and chemical characteristics to the sample being analysed. A discussion of how RRFs are used in pharmaceutical R&D involving GC can be found in Rome and McIntyre (2013). ![]() Using RRFs is beneficial when one of the samples is an internal standard - a calibration then allows multiple analyses to be run on different samples. The RRF can be used to calculate the unknown concentration of analyte A in the presence of a known concentration of analyte B using the following equation: Concentration A = Peak area A / Peak area B x 1 / RRF x Concentration B The response factors calculated for each analyte are then used to establish the RRF between the two analytes thus: Relative Response Factor (RRF) = Response Factor A / Response Factor B One of the easiest ways to eliminate variation in the response factor is to use relative response factors and an internal standard to calibrate the GC. ![]() Therefore, for reproducibility in sample measurements, a method of eliminating variability in the response factor must be used. Response factors are important when using GC for quantitative analysis. Quantitative analysis is the determination of a compound’s concentration in a sample (analyte). It is important to remember that variations in a gas chromatography (GC) system and analysis methodology can be the cause of a deviation in the response factor. While there are several ways to quantify the peak, one of the most common is peak area, thus: Response Factor = Peak Area / Concentration A chromatogram will show a response from a detector as a peak. ![]() In chromatography, a response factor is defined as the ratio between the concentration of a compound being analysed and the response of the detector to that compound.
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