Explore BrainMass

Explore BrainMass

    Quantitative Analysis

    Quantitative Analysis is a method used for the determination of amounts and proportions regarding a sample substance. Such a determination is important, as absolute or relative abundance of a chemical constituent can help determine other chemical and physical properties. For example, using a mass spectrometer to determine the relative abundance ratios of specific chemical compounds is a form of quantitative analysis, as relative values are determined in this process. However, sometimes, these amounts and proportions cannot be measured directly, and an indirect indicator must be used. For example, when considering Beer-Lambert’s Law, light absorption may be measured to indirectly measure the concentration of the sample substance, with which the light passes through. Quantitative Analysis is often contrasted to qualitative analysis, which is a method used to detect particular compounds, without measuring values related to quantity. Although, they are very different methods, they are nowadays often used together to provide better information regarding the chemical nature of substances. For example, a chemist may use a qualitative technique such as IR spectroscopy to identify a specific compound. Furthermore, the same chemist may then use quantitative analysis to determine the concentration of that specific compound. Thus, Quantitative Analysis is a powerful tool in the laboratory, especially when it is used in tandem with qualitative analysis. © BrainMass Inc. brainmass.com August 13, 2022, 11:41 am ad1c9bdddf


    BrainMass Categories within Quantitative Analysis

    Beer Lambert Law

    Solutions: 9

    The Beer-Lambert Law describes the relationship between light absorption and the properties of the material which the light is travelling through.

    BrainMass Solutions Available for Instant Download

    Analytic Balance Lab

    Need the answer to the following questions based on the data in the attached file : QUESTIONS: 1. From steps 1-5 in part C, compare the mass of the clean, dry bottle with the mass of the bottle after the sample has been removed. List possible reasons for any discrepancy. Suggest ways to test your hypotheses. 2. Explain step

    Quantitative Analysis in Chemistry

    I have attached a paper with two questions I am not sure how to approach. This is my first assignment in quantitative analysis. I would like to start off with a good understanding of the topic, so complete work and explanation would be greatly appreciated. Five mineral samples of equal mass of Calcite, 〖CaCO〗_3 (MM

    Capillary Zone Electrophoresis, Molar Solubility and Titrations

    1. Give an example of an absorption type stationary phase. 3. Explain why at pH around 7, the analyte anions move towards the cathode in capillary zone electrophoresis. 4. The Ksp of La(IO3)3 is 1.0×10-11. Using activities, what is the molar solubility of La(IO3)3 in a 0.050 M solution of NaNO3? 5. Calculate pFe2+ a

    Quantitative Analysis - Equilibrium

    1. In you book, the author states that K for carbonic acid is 4.5 à? 10 (see below) H2CO3(aq) ↔H+ (aq) + HCO3 (aq) K a1 = 4.5 à? 10-7 Is this a valid equilibrium constant for this reaction? Fully explain your answer. 4. Glycine, the simplest of the amino acids found in pr

    Quantitative Analysis Calculations

    Please solve each of the following problems with all calculations shown. 1. A 25.00 mL portion of a solution known to contain NaBr was treated with excess AgNO3 to precipitate 0.02578 g of AgBr. Determine the concentration of NaBr in the original solution in molarity and ppm. 2. How many mL of a 3.45% solution of alco

    The Determination of Ascorbic Acid in Vitamin Tablets

    1. This experiment involves a number of redox reactions. They are carried out in the following order of stages. To determine the amount of ascorbic acid in the tablet properly, the limiting reagent condition must be adhered to at each of the stages. Underline the reactant in each of the above reactions that is acting as t