Akademik Dersler - İçerik

Explain parasympathomimetics.
Chemically classify parasympathomimetics.
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 parasympatholytics.
Chemically classify parasympatholytics.
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 symptomomimetics.
Classify sympathomimetics 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 sympatholytics.
Classify sympatholytics 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 heart failure.
Classify drugs used in heart failure 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 antiarrhythmic drugs.
Classify antiarrhythmic 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 antianginal drugs.
Classify antianginal 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 Peripheral Vasodilators.
Classify peripheral vasodilator 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 antihypertensive and antihypotensive drugs.
Classify antihypertensive 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 antihyperlipidemic drugs.
Classify antihyperlipidemic 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 Antivaricose Drugs.
Name the antivaricose 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 hemostatic drugs.
Classify hemostatic 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 antithrombotic drugs.
Classify anticoagulant 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 antianemic drugs.
Explain the chemical structures of antianemic drugs.
Explain the Plasma Substitute Compounds.
Explain the chemical structures of plasma substitute compounds.
Explain the drugs used in water and electrolyte balance disorders.
Explains the chemical structures of drugs used in water and electrolyte balance disorders.
Explain the drugs used in acid-base balance disorders.
Explains the chemical structures of drugs used in acid-base balance disorders.
Be able to perform synthesis applications.
Determine the appropriate method for the synthesis of the target compound.
Explain the reaction conditions of the synthesis.
Explain the reaction equation and mechanism of synthesis.
Explains the properties and purposes of the chemical substances required for synthesis.
Explain the properties and uses of devices required for synthesis.
Synthesizes the target compound.
Be able to perform separation and purification applications.
Applies the appropriate process to remove the synthesis product from the reaction medium.
Explains the physical and chemical properties of the synthesis product.
Calculates the theoretical, practical and percentage yield of the synthesis product.
Crystallizes the synthesis product.
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.