PHARMACEUTICAL AND MEDICINAL CHEMISTRY II

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Learning Outcomes

Explain General Anesthetics.
Chemically classify general anesthetics.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain local anesthetics.
Chemically classify local anesthetics
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain Sedative and Hypnotic Drugs.
Classify sedative and yypnotic drugs chemically.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain Tranquilizing Drugs.
Classify tranquilizing drugs chemically.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain the drugs used in neuroleptic drugs.
Classify neuroleptic drugs chemically.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain Antidepressant and Antimanic Drugs.
Chemically classify antidepressant and antimanic drugs.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain antiepileptic drugs.
Classify antiepileptic drugs chemically.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain centrally acting muscle relaxants.
Chemically classify centrally acting muscle relaxants.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain analeptic drugs.
Classify analeptic drugs chemically.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain psychomimetic drugs.
Classify psychomimetic drugs chemically.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain Narcotic Analgesics.
Name the narcotic analgesics.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain Narcotic Antagonists.
Classify narcotic antagonists chemically.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain Nonsteroidal Anti-inflammatory Drugs.
Nonsteroidal anti-inflammatory drugs are chemically classified.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain the drugs used in the treatment of Alzheimer's disease.
Chemically classify drugs used in the treatment of Alzheimer's disease.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Explain antiparkinsonian drugs.
Classify antiparkinsonian drugs chemically.
Explains the chemical class in which the active ingredients are contained.
Explains the structure-activity relationships of active ingredients.
Names the active ingredients chemically.
Explains the receptor/enzyme interaction sites of active substances.
Explains the synthesis methods of active substances.
Describes the metabolism pathways and metabolites of active substances.
Be able to perform IR Spectroscopy applications.
Lists the estimated IR data of the compounds.
It determines which functional groups the bands in the IR spectrum belong to.
Determine the structure by interpreting IR spectra.
Be able to perform 1H NMR Spectroscopy applications.
Lists the predicted 1H-NMR data of the compounds.
It determines which protons the peaks observed in 1H-NMR spectra belong to.
Determine the structure by interpreting 1H-NMR spectra.
Be able to perform mass spectroscopy applications.
Lists the predicted MS data of the compounds.
It determines which parts the peaks observed in the mass spectrum belong to.
It determines the molecular ion peak in mass spectra.
It determines the main peak in mass spectra.
Interpret the mass spectra of compounds.
Be able to determine physical properties.
It distinguishes the sample by color, odor, taste and appearance.
Determines the melting point of the sample.
Determines the solubility class of the sample.
Be able to determine chemical properties.
Applies combustion test to the sample and interprets the results.
Detects the presence of nitrogen/sulfur/halogen in the sample.
Determines the acidic/basic character of the laboratory sample.
Be able to perform functional group analyses.
Distinguishes recognition tests belonging to functional groups in the compound.
Applies functional group recognition tests to the sample.
Be Able to Perform Special Diagnostic Reactions.
Identifies the specific diagnostic reaction that may be applied to the compound.
Applies a sample-specific diagnostic reaction.
Be able to perform titration methods.
List the titrimetric methods that can be applied to the compound.
Prepares the necessary solutions for the titrimetric method that can be applied to the sample.
Lists the chemicals required for the titrimetric method to be applied to the sample.
Explains the properties and intended uses of the chemical substances required for the titrimetric method to be applied to the sample.
Determines the appropriate ambient temperature for the titrimetric method to be applied to the sample.
Determines the potency of the compound.
Explains the reaction equation and mechanism of the titrimetric method to be applied to the sample.
Applies the titration method.
Determines the purity of the sample.