Dr. Acharya Academy

This chapter has been described from the book"Analytical Chemistry ", written by G. D. Christian and others.

Mass Spectrometry detector. It is the part of the book, "Analytical Chemistry", written by G. D. Christian

ICP-MS and Ion mobility Spectrometry (IMS). Based on book"Analytical Chemistry ", written by G. D. Christian and others

It contains Quadruple, Iontrap, Time-of-Flight(TOF). This topic is part of "Analytical Chemistry", written by G. D. Christian and others

This is Continuation of the chapter-22, Session-1, 2,3.

This topic is part of chapter-22 of the book, "Analytical chemistry", written by G. D. Christian and others

Part of "Analytical Chemistry" by G. D. Christian. Toxic Gas chromatography-Mass spectrometry.

This chapter is part if the book, "Analytical Chemistry", written by G. D. Christian and others

This topic has been described from the book, "Analytical Chemistry", by G. D Christian and others

This topic is part of chapter-21 of the book"Analytical Chemistry", written by G. D. Christian and others

This topic has been selected from the book, "Analytical Chemistry", written by G. D. Christian and others

This topic is a part of "Analytical Chemistry", written by G. D. Christian and others

This topic has been chosen from the book, "Analytical Chemistry', written by G. D. Christian

This chapter is from the book, "Analytical Chemistry", written by G. D. Christian and others. Topic-HPLC, Content: HPLC. Separation modes: NPC, RPC, IEC, IC, HILIC, SEC (GFC), ICE, Chiral LC, affinity LC. Stationary phases. Equipment details

This topic has been selected from the book, "Analytical Chemistry", written by G. D. Christian and others. Topic: Gas Chromatography. Learning points are: Gas chromatograph. GC columns- packed, capillary. Stationary phase polar to nonpolar. GC detectors. Temperature programming. Quantitative measurement-internal standards. Headspace analysis, thermal desorption, purging, and trapping. Small columns for fast separations. 2-D gas chromatography.

This topic has been selected from the book, "Analytical Chemistry", written by G. D. Christian and others. Topic - Chromatography: Principles and theory. Learning points: Countercurrent extraction. How chemicals are separated on a column. Types of chromatography- adsorption, partition, ion exchange, size exclusion. Chromatographic nomenclature. Theory of column efficiency. Plate number. Van Deemter equation for packed GC columns. Golay equation for open tubular GC columns. Huber and Knox equations for HPLC. Retention factor. Chromatographic resolution. Separation factor. Chromatography simulation software and databases.

This topic has been selected from the book, "Analytical Chemistry", written by G. D. Christian and others. Topic: Sample preparation: solvent and solid phase extraction. Learning points: Distribution coefficient, distribution ratio. Percent extracted. Solvent extraction of metal ions-complexes. Accelerated and microwave-assisted solvent extraction. Solid phase extraction. Solid phase microextraction.

This topic has been selected from the book, "Analytical Chemistry", written by G. D. Christian and others. Topic: Atomic spectrometric methods. Learning points: Distribution of atoms as a function of temperature. Flame emission spectrometry. Atomic absorption spectrometry. Flame AAS. Electrothermal AAS. Cold vapor and hydride generation. Interferences in AAS. Sample preparation. Internal standard and standard addition calibration. Atomic emission spectrometry the induction-coupled plasma(ICP). Laser ablation ICP-optical emission spectrometry)/ mass spectrometry. Atomic florescence spectrometry (AFS)

This topic has been selected from the book, "Analytical Chemistry", written by G. D. Christan and others. Topic: Spectrochemical methods. Learning points: Wavelength, frequencies, and photon energy. How molecules absorb electromagnetic radiation. UV- visible absorption and molecular structure. IR absorption and molecular structure. IR and molecular structure. Near-IR spectrometry. Beer's law calculations. Mixture calculations

This topic has been taken from the book"Analytical Chemistry ", written by G. D. Christian. Topic: Voltametry and electrochemical sensors. Learning points: Electrolytic cells. Supporting electrolytes. Amperometric electrodes. Chemically modified electrodes. Ultramicroelectrodes

This topic has been selected from the book, "Analytical Chemistry", written by G. D. Christan and others. Topic: Redox and potentiometric titrations. Learning points: Balancing redox reactions Calculating the reaction equilibrium constant from standard potentials. Calculating redox titration curves. Iodimetry and iodometry. Preparing the analyte fir titrations. Potentiometric titrations. Derivative titrations

This topic has been chosen from the book, Analytical Chemistry ", written by G. D. Christan and others. Topic: Potentiometric electrodes and potentiometry. Learning objectives: Types of electrodes and electrode potentials from the Nernst equation. Liquid junctions and junction potentials. Reference electrodes. Accuracy of potentiometric measurements. The pH glass electrodes. Standard buffers and the accuracy of pH measurements. The pH meter. Ion-selective electrodes. The selectivity coefficient.

This chapter is the part from the book, "Analytical Chemistry", written by G. D. Christian and others. Topic: Electrochemical cells and electrode potential. Learning points: Voltaic cells, Using standard potentials to predict reactions, Anode, Cathode and cell voltages. The Nernst equation. Calculating electrode potential s before and after reactions. The formal potential.

This topic has been described from the book"Analytical Chemistry ", written by G. D. Christian and others. Topic: Precipitation reactions and titrations. Learning points: Effects of acids on solubility Effect of complexation on solubility. Calculating precipitation titration curves. Indicators for precipitation titrations.

This chapter is described from the book, "Analytical Chemistry", written by G. D. Christian and others. Topic: Gravimetric analysis and precipitation equilibria. Learning objectives: Steps if a gravimetric analysis- precipitation, digestion, filtration, washing, drying, weighing, calculation. Gravimetric calculation. The solubility product, the common ion effect. The diverse ion effect.

This topic has been taken from the book, "Analytical Chemistry", written by G. D. Christian and others. Learning points are: Formation constants, EDTA equilibria, Indicators for EDTA titrations, Alpha-M and beta values

This episode is from the book, "Analytical Chemistry", written by G D Christian and others, Topic is Acid-Base titration. Learning points are: Calculating Acid-Base titration. Strong Acid- strong base. Weak acids- weak bases. Derivative titrations. Titration of Sodium carbonate. Titration of polyprotic acids. Kjeldal analysis of nitrogen containing compounds

This chapter has been described from the book, "Analytical Chemistry", written by G. D. Christian and others. Topic covered: Acid-Base Equilibria. Learning objectives: Acid-Base theories, Acid-Base equilibria in water, Weak acids and bases, Salts of weak acids and bases, Buffers, Polyprotic acids- alpha values, Salts of polyprotic acids

This chapter has been described from the book, "Analytical Chemistry", written by G. D Christian, It contains: General concepts of chemical equilibrium. Learning objectives: The equilibrium constants and equations, Calculation of equilibrium constants, mass balance, charge balance, Activity and activity coefficients, Thermodynamic equilibrium constants

This chapter has been taken from the book"Analytical Chemistry ", written by G. D. Christisn and others. Tropics are: Stiochiometric calculations, Learing points are: How to calculate molarities, moles. How to express analytical results. How to calculate weight and percent alalyted from molarities, volumes, and reaction ratios. Weight relationship for Gravimetric analysis.

This podcast is from the book "Analytical Chemistry", written by G. D. Christian and others, Topics are: Good Laboratory Practice (GLP), Quality Assurance and Method Validation. Learning objectives are: Good Laboratory- What it is, how to apply it! How to validate a method, Selectivity, Linearity, Accuracy, Precision, Sensitivity, Range, LOD, LOQ, Ruggedness. Quality Assurance- Control Charts, Documenting, Proficiency Testing, Electronic Records, What is 21CFR, Part-11! Official organizations that provide GLP information

This subject has been described from the book "Analytical Chemistry", written by G D Christian and others. It contains Statistics and Data handling in analytical chemistry. Accuracy and precision. Types of errors in measurements, Significant figures, Absolute and relative Uncertainty, Standard deviation, Propagation of errors

This podcast is related to Analytical chemistry, written by G. D. Christian. It contains, How to keep a good notebook, How to use reagent grade chemicals, How to use the analytical balance, Volumetric glassware and how to use it, How to calibrate glassware. How to prepare standard acid and base solutions, Common laboratory apparatus for handling and treating samples, How to filter and prepare precipitates for gravimetric analysis, How to sample solids, liquids, and gases, How to prepare a solution of the analyte

This episode contains: What is analytical science? Qualitative and quantitative analysis. The analytical process. Validation of a method. Analysis vs. Determine.

This podcast is from the book, "Analytical Chemistry", 7th edition, written by G. D. Christian and others

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd. This covers mains topics in brief.

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book, "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book, "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book, "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd

This chapter has been described from the book "ORGANIC CHEMISTRY", written by Morrison and Boyd