Akademik Dersler - İçerik

Will be able to Evaluate the Pharmaceutical Water.
• Explains the importance of pharmaceutical water in pharmacy technology. • Explains the usage areas of pharmaceutical water in pharmacy technology. • Explains the properties of pharmaceutical water. • Lists the methods of pharmaceutical water preparation. • Explains the acquisition of pharmaceutical water by distillation. • Explains parts of the distillation device. • Explains the characteristics of the distillation device. • Explains the characteristics of feed water to be used in distillation process. • Explains the operation of the distillation device made of glass. • Explains points to be considered for storage of distilled water. • Describes the production of pharmaceutical water by deionization process. • Describes the purpose of using ion exchange resins in deionization process. • Explains the methods used in deionization process. • Explains the deionization process by conventional method. • Explain the deionization in the shape by conventional method. • Explains the deionization process by reverse working method. • Describes the deionization process with mixed bed method. • Compares the double bed and mixed bed deionized water device on the shape. • Explains the acquisition of pharmaceutical water by reverse osmosis. • Explains the formation of pharmaceutical water by the reverse osmosis process. • Describes the obtaining of pharmaceutical water by filtration. • Describes the methods used in filtering. • Explains the difference between microfiltration, ultrafiltration and hyperfiltration. • Explains the obtaining of pharmaceutical water by electrodialysis. • Explains the operation of electrodialysis. • Explains the obtaining of pharmaceutical water by electrodeionization process. • Lists the types of water registered in the American Pharmacopoeia. • Lists the water types registered in the European Pharmacopoeia. • Describes the characteristics of pure water. • Describes the method of obtaining pure water. • Explains the characteristics of high purity water. • Explains the method of obtaining high purity water. • Explains the characteristics of injection water. • Explains the method of obtaining water for injection. • Explains the characteristics of sterile injection water. • Describes the method of obtaining sterile injection water. • Describes the characteristics of sterile water for inhalation. • Describes the method of obtaining sterile water for inhalation. • Explains the characteristics of sterile bacteriostatic water for injection. • Explains the method of obtaining sterile bacteriostatic water for injection. • Explains the characteristics of sterile water for irrigation. • Describes the method of obtaining sterile water for irrigation. • define the pyrogenic substance. • Explains the drawbacks of the pharmaceutical water containing pyrogenic substances. • Explains pyrogen and bacterial endotoxin testing in pharmaceutical water. • Compares the advantages and disadvantages of pyrogen and bacterial endotoxin testing. • Explains the preparation of LAL (Limulus amebosit lysate) in pharmaceutical water. • Evaluates the results of LAL (Limulus amebosit lysate) test in pharmaceutical water. • Explains the construction of pharmaceutical water pyrogen test. • Lists the recommended procedure for pyrogen testing in pharmaceutical water. • Evaluates the result of pyrogen test in pharmaceutical water. • Explains the drawbacks of the pharmaceutical water containing ion. • Describes the experiment of ion-in-water in pharmaceutical water. • Evaluates the result of a test of ion-in-water drug testing. • Explains the drawbacks of heavy metal content of pharmaceutical water. • Explain the heavy metal exploration test in pharmaceutical water. • Evaluates the outcome of a heavy metal exploration experiment in pharmaceutical water. • Explains the drawbacks of pharmaceutical water containing oxidizable substances. • Describes the testing of the search for an oxidizing agent in pharmaceutical water. • Evaluates the result of the experiment of the search for an oxidizable substance in the pharmaceutical water.
Will be able to Evaluate the General Properties of Pharmaceutical Solution.
• Defines the concept of pharmaceutical solution. • Explains the phases of the pharmaceutical solution. • Explains the advantages of pharmaceutical solution. • Explains the drawbacks of pharmaceutical solution. • Describes the types of solutions and their usage areas. • Describes the most preferred type of solution as the drug form. • Defines the concept of resolution. • Defines the factors affecting the solubility. • Defines the dissolution rate. • Defines the factors affecting the dissolution rate. • Describes dissolution rate test methods. • Explains the methods of preparing pharmaceutical solutions. • Explains the tools used in preparing the pharmaceutical solution. • Lists the components used in preparing the pharmaceutical solution. • Explains the properties of the active substance to be used in pharmaceutical solution. • Explains the properties of solvent to be used in pharmaceutical solution. • Gives an example to the solvent to be used in pharmaceutical solution. • Explains the intended use of the sweetener in pharmaceutical solution. • Explain the properties of the sweetener to be used in pharmaceutical solution. • Gives the example of the sweetener to be used in the pharmaceutical solution. • Explains the intended use of the viscosity enhancing agent in the pharmaceutical solution. • Explains the properties of the viscosity enhancing agent to be used in the pharmaceutical solution. • Gives examples to viscosity enhancing agent to be used in the pharmaceutical solution. • Explains the intended use of taste and flavoring agent in pharmaceutical solution. • Explains the properties of taste and odorant to be used in pharmaceutical solution. • Gives an example to the taste and odor of the pharmaceutical solution. • Explains the intended use of the dyestuff in pharmaceutical solution. • Explains the properties of the dyestuff to be used in pharmaceutical solution. • Gives an example of the dyestuff to be used in pharmaceutical solution. • Explains the intended use of preservative in pharmaceutical solution. • Explains the properties of preservative to be used in pharmaceutical solution. • Gives examples of antioxidant and antibacterial agent to be used in pharmaceutical solution.
Will be Classify Pharmaceutical Solutions According to Administration Way.
• Describes the characteristics of oral solution. • Classifies the solutions used orally. • Classifies the solutions used without sweetener and used orally. • Gives examples of the solutions used without sweetener and used orally. • Classifies the solutions containing sweeteners and used orally. • Defines the concept of syrup. • Explains the characteristics of syrup. • Classifies syrups. • Gives examples of syrups with no active substance. • Gives examples of syrups containing active substance. • Gives examples of syrups registered to pharmacopoeias. • Explains the intended use of syrups registered with pharmacopoeias. • Explains the preparation of simple syrup. • Describes the intended use of simple syrup. • Sorts syrup preparation methods. • Examples of hot and cold syrups prepared. • Gives the example of syrups prepared with extract and tincture. • Gives examples of macerated syrups with maceration and digestion. • Gives the example of syrups prepared with fruit juice. • Gives example to syrups prepared chemically. • Examples of syrups prepared by percolation. • Describes the preparation of syrup by the method of re-dissolution. • Explains the stability problems and causes of syrup. • Explains the storage conditions of syrup. • Defines the concept of eliksir. • Explains the properties that Eliksir must carry. • Explains the purpose of Eliksir. • Examples of elixels registered to the pharmacopoeia. • Explains the intended use of elixirs registered in pharmacopoeia. • Defines the concept of lemonade. • Explains the properties of lemonade. • Explains the intended use of lemonade. • Examples of lemonade registered to the pharmacopoeia. • Explains the intended use of lemonades registered in pharmacopoeia. • Defines the concept of posion. • Explains the features that the posion should carry. • Explains the purpose of the posion. • Gives examples of positives registered in the pharmacopoeia. • Explains the intended use of the positives registered in the pharmacopoeia. • Defines the concept of solution for injection. • Explains the basic properties of the solution for injection. • Examples of injection solutions. • Explains the intended use of the injection solution. • Explains the basic properties of the solution applied to the eye, ear and nose. • Gives an example to the solution applied to the eye, ear and nose. • Explains the intended use of the solution applied to the eye, ear and nose. • Defines the concept of inhalation solution. • Explains the basic properties of inhalation solution. • Gives an example of inhalation solution. • Explains the intended use of inhalation solution. • Explains the basic properties of the solution applied to the oral cavity. • Gives an example to the solution applied to the oral cavity. • Describes the characteristics of mouth water. • Describes the use of oral water. • Explains the characteristics of the mouthwash. • Explains the purpose of using the mouthwash. • Defines the concept of the collateral. • Explains the features of the armrest. • Explains the purpose of use of armrest. • Explains the basic properties of the solution applied to the skin. • Gives an example to the solution applied to the skin. • Explains the intended use of the solution applied to the skin. • Gives an example to the solution applied to the skin and applied to the skin. • Describes the use of iodine tincture. • Describes the use of the components in the iodine tincture formulation. • Explains the preparation of iodine tincture. • Explains the basic properties of rectal and vaginal solution. • Give an example to rectal and vaginal solution. • Explains the intended use of rectal and vaginal solution. • Defines the concept of irrigation solution. • Explains the basic properties of the irrigation solution. • Gives example to irrigation solution. • Explains the intended use of the irrigation solution. • Describes the basic properties of the lens solution. • Classifies the lens solutions. • Explains the intended use of the lens solution.
Will be able to Evaluate the Stability of Pharmaceutical Solution.
• Explains the importance of stability in pharmaceutical solution. • Explains chemical stability in pharmaceutical solution. • Explains physical stability in pharmaceutical solution • Explains microbiological stability in pharmaceutical solution. • Explains therapeutic stability in pharmaceutical solution. • Explains toxicological stability in pharmaceutical solution. • Describes the importance of decomposition reaction kinetics for drug forms. • Defines the rate in the decomposition reaction. • Defines the speed invariance in the decay reaction. • Defines the degree of degradation reaction. • Describes the factors affecting the degradation reaction rate. • Explains the effect of temperature on the rate of degradation reaction. • Uses Vant Hoff equation to show the effect of temperature on decay reaction rate. • Uses Arrhenius equation to show the effect of temperature on the degradation reaction rate. • Explains the drug shelf life calculation according to the Arrhenius graph. • Describes the effect of solvent on the rate of degradation reaction. • Explains the effect of ionic intensity on the rate of degradation reaction. • Explains the effect of dielectric constant on the rate of decay reaction. • Explains the effect of pH on degradation reaction rate. • Explains the effect of catalyst on the rate of degradation reaction. • Explains the effect of the solubility of the active substance on the rate of degradation reaction. • Explains the effect of excipient on the rate of degradation reaction. • Explains the effect of light on the rate of decay reaction. • It compares the wavelength and energy of the UV, visible and IR beam. • Lists the mechanisms of degradation in pharmaceutical solution. • Explains the measures that can be taken to protect the pharmaceutical solution from degradation. • Lists chemical degradation reactions from kinetic point of view. • Explains the basic properties of the zero degree decay reaction. • Explains the graph and equation of the zero degree decay reaction. • Explains the half-life equation according to the zero degree decay reaction. • Explains the shelf life equation according to the zero degree decay reaction. • Calculates half life and shelf life according to zero degree decay reaction. • Explains the basic properties of the first degree decay reaction. • Explains the graph and equation of the first degree decay reaction. • Explains the half-life equation according to the first degree decay reaction. • Explains the shelf life equation according to the first degree decay reaction. • Calculates half life and shelf life according to first degree decay reaction. • Compares and explains the first and second degree decay reaction kinetics.
Will be able to Evaluate the Importance of Rheology in Pharmaceutical Technology.
• Defines the concept of rheology. • Explains the application areas of rheology. • Explains the application areas of rheology in pharmaceutical technology. • Discuss the importance of rheology in pharmaceutical research and development. • Defines the viscosity concept. • Explains the relationship between rheology and viscosity. • Explain the viscosity concept with parallel layer model. • Explains the shear stress and shear rate by formula. • Explains the difference between dynamic viscosity and kinematic viscosity. • Describes the viscosity unit according to the system of metric and international units. • Makes the unit conversion between dynamic viscosity and kinematic viscosity. • Explain the relationship between viscosity and fluency. • Explain the relationship between viscosity and temperature. • Categorize flow models. • Explains the Newtonian flow model. • Recognizes the preparations that act according to Newton flow model. • Newton evaluates the flow model on the graph. • Explain the difference between Newton and non-Newtonian flow model. • List non-Newtonian flow models. • Explains plastic flow model. • Recognize the preparations that act according to the plastic flow model. • Evaluates the plastic flow pattern on the graph. • Recognizes the flow types under the plastic flow model. • Explains the Bingham flow type with the formula. • Explains the standard Casson flow type with its formula. • Describes the pseudoplastic flow model. • Recognizes preparations that act according to pseudoplastic flow model. • Evaluates the pseudoplastic flow model on the graph. • Explains the Dilatan flow model. • Recognizes the preparations that behave according to the Dilatan flow model. • Evaluates the dilatant flow model on the graph. • Compares flow patterns. • Explains the Power Law model. • Specifies the flow type using the Power Law model. • Defines the concept of thixotropy. • Recognizes the drug forms that show thixotropic behavior. • Explains the similarities between thixotropy and flow models. • Explains the use of thixotropin in pharmaceutical technology. • Defines the concept of Reopeksi. • Recognizes the forms of drugs showing reactive behavior. • Explains the similarities between Reopeksi and flow models. • Explains the purpose of the use of Reopeks in pharmaceutical technology. • Explains the purpose of the rheometer. • Explains the differences between viscometer and rheometer. • Explains how to measure viscosity. • Lists the viscometers used for the Newton system. • Explains how the capillary viscometer works. • Explains how the falling ball viscometer works. • Lists the viscometers used for the non-Newtonian system. • Describes the way the concentric cylinder type rheometer works. • Describes the operation of the cone-plate type rheometer. • Explains how the rotating shaft viscometer works. • Lists their superiority by comparing rheometer types. • Defines viscoelasticity. • Explains the rheological properties of viscoelastic material. • Recognizes the forms of viscoelastic drugs. • Lists the viscometers used to study the viscoelastic property.
Will be able to Evaluate Macromolecular Substances in terms of Pharmaceutical Technology.
• Defines monomer and polymer. • Explains the concepts of copolymer and homopolymer. • Explains the structural properties of the polymer. • Explains the difference between linear, branched and crosslinked polymers. • Explains the properties of bonds in the polymer. • Explains the difference between configuration and conformation. • Explains the difference between the molecules in the polymer. • Describes the contribution of crystalline structure to polymer. • Explains the contribution of amorphous structure to polymer. • Explains the thermal properties of the polymer. • Defines the glass transition temperature. • Explains the optical properties of the polymer. • Explains the chemical properties of polymer. • Explains the effect of the molecular weight of the polymer on the structure. • Explains polydispersity index for molecular weight distribution of polymer. • Explains the change seen in contact with liquid in polymer. • Lists the parameters that affect the dissolution / swelling of the polymer. • Explains the properties of hydrophilic colloid solution. • Explains the use of mucilage-forming agent in Pharmaceutical Technology. • Identifies the coacervation event. • Describes the reason for the formation of coacervation. • Defines the concept of coacervate. • Describes simple coacervation. • Explains complex coacervation. • Classifies polymers. • Lists organic flat polymeric substances. • Gives an example of natural welded polymeric material. • Gives examples of semi-synthetic polymeric material. • Gives an example of a full synthetic polymeric substance. • Gives an example of inorganic polymeric substance. • Defines the concept of polymer that does not wear on the body and is worn in the body. • Lists non-erosive polymers in the body. • Explains the general properties of non-erosive polymer in the body. • Explains the properties of hydrophilic polymer (hydrogel). • Gives example to hydrophilic polymer. • Explains the properties of hydrophobic polymer. • Gives example to hydrophobic polymer. • Lists the wearer polymers in the body. • Explains the general properties of the polymer in the body. • Explains the properties of polyamide. • Gives an example of natural polyamide. • Gives an example of synthetic polyamide. • Explains the properties of polyester. • Gives an example to the polyurethane. • Explains the properties of the polymer used in Pharmaceutical Technology. • Explains the tests performed to determine the physical properties of the polymer. • Explains the diffusion of active substance from polymer. • Lists the factors affecting the diffusion of the drug from the polymer. • Classifies polymer film and membrane according to pore structure. • Explains the properties of macroporous film and membrane. • Explains the properties of microporous film and membrane. • Explains the properties of non-porous film and membrane. • Explains the diffusion of active substance from the polymer, mathematically . • Compares fick law to non-conforming diffusion mechanism.
Evaluates the Colloidal System in terms of Pharmaceutical Technology.
• Describes the colloidal system. • Explains the phases of the colloidal system. • Explains the phase and dispersion phase of the colloidal system. • Lists the colloidal systems commonly used in pharmaceutical technology. • Explains other uses of colloidal system. • Classifies colloidal systems in general. • Classifies colloidal systems according to their physical state. • Gives examples to colloidal systems according to their physical state of the phase. • Classifies the colloidal systems according to the particle size of the dispersed phase. • Explains the properties of molecular dispersion. • Give examples of molecular dispersion. • Explains the properties of colloidal dispersion. • Examples of colloidal dispersion. • Describes the properties of coarse dispersion. • Examples of coarse dispersion. • Classifies the colloidal systems according to the interaction and interaction between phases. • Explains the properties of lyophilic colloid. • Examples of lyophilic colloid. • Explains the properties of lyophobic colloid. • Examples of lyophobic colloids. • Lists the methods used to reduce particle size in the colloidal system. • Describes dispersion and condensation method. • Explains properties of association colloid. • Gives an example of association colloid. • Explains the properties of particles in the colloidal system. • Explains the importance of particle size in colloidal system. • Explains the importance of particle shape in colloidal system. • Explains the optical properties of the colloidal system. • Explains the optical properties of the colloidal system by the effect of Faraday Tyndall. • Explains the optical properties of the colloidal system by light scattering. • Explains the optical properties of the colloidal system by turbidity. • Explains the kinetic properties of colloidal system. • Explains thermal motion in colloidal system. • Explains Brownian motion in colloidal system. • Explains diffusion-induced motion in the colloidal system. • Explains osmotic pressure induced movement in colloidal system. • Explains osmotic pressure-induced motion in the colloidal system with Van basınçt Hoff equation. • Explains the effects of gravity on the colloidal system. • Explains the effect of centrifuge in colloidal system. • Explains the motions carried out by external force in the colloidal system. • Explains the importance of rheology in colloidal system. • Explains the electrical properties of the colloidal system. • Describes the ways of gaining particles in the colloidal system. • Explains the importance of zeta potential in colloidal system. • Explains the factors affecting the stability of the colloidal system. • Explains the features required to achieve stability in the colloidal system. • Lists the situations in which the stability of the colloidal system cannot be achieved. • Defines the concept of coelescence in the colloidal system. • Describes the concept of flocculation in the colloidal system. • Defines the concept of phase separation in the colloidal system. • Defines the concept of cremation in the colloidal system. • Defines the concept of crystal growth in colloidal system. • Describes the concept of aggregation in the colloidal system. • Defines the concept of flotation in colloidal system. • Describes the concept of sedimentation in the colloidal system. • Defines the concept of caking in colloidal system. • Explains the solution for cases where stability cannot be achieved in the colloidal system. • Explains protective colloid effect. • Explains the number of gold in protective colloid effect. • Gives examples of protective colloid properties.
Evaluates the Suspension System in terms of Pharmaceutical Technology.
• Defines the suspension system. • Describes the particle size of the suspension system. • Describes the phase and dispersion phase of the suspension system. • Explains the purpose of preparation of the suspension system. • Classifies the suspension systems according to the usage path. • Lists the features of a well formulated suspension system. • Explains particle motion in the suspension system. • Lists the factors affecting particle motion in the suspension system. • Explains the importance of sedimentation in suspension system. • Lists the factors affecting the sedimentation in the suspension system. • Explains the relationship between sedimentation system and Stokes es Law. • Explains the equality of Stokes ’Law for the sedimentation rate in the suspension system. • Explains the factors affecting the sedimentation system according to Stokes iment Law. • Explains how sedimentation can be slowed in suspension system. • Describes the special cases in which the Stokes Law is eligible. • Explains the importance of free surface energy in suspension system. • Describes the equality used in the free surface energy calculation in the suspension system. • Explains the importance of flocculation in suspension system. • Compares the difference between the flocculated and deflocated suppression system. • Explains the importance of electrokinetic properties in suspension system. • Describes the electrical double layer around the suspended particle. • Describes the electroneutral region around the suspended particle. • Explains the importance of surface potential in suspension system. • Defines the Nerst potential around the suspended particle. • Defines the Stern layer around the suspended particle. • Defines the zeta potential around the suspended particle. • Explains the importance of zeta potential in suspension system. • Explains the importance of interaction between particles in the suspension system. • Explains the relationship of distance between particles in suspension system. • Describes DLVO theory. • Interprets DLVO theory on the figure by using two particles close to each other. • Explains the rheological properties of the suspension system. • Explains the points to be considered in the preparation of the suspension system. • Explains the tools used in the preparation of the suspension system. • Describes the auxiliary substances used in the suspension system. • Explains the formulation development study in suspension system. • Explains the steps to be followed in the preparation of the suspension system. • Explains the importance of wetting in the suspension system. • Explains the properties of the wetting agent used in the suspension system. • Gives an example of the wetting agent used in the suspension system. • Describes the intended use of the viscosity enhancing agent used in the suspension system. • Gives an example of the viscosity increasing agent used in the suspension system. • Explains the importance of controlled flocculation in the suspension system. • Describes the formation of controlled flocculation in the suspension system. • Describes the selection criteria for the method of preparation in the suspension system. • Sorts the factors affecting the stability of the suspension system. • Sorts the states where the suspension system cannot be stabilized. • Explains the effect of sedimentation on the stability of the suspension system. • Explains the effect of flocculation on the stability of the suspension system. • Explains the effect of electrical properties on the stability of the suspension system. • Explains the effect of particle interaction on the stability of the suspension system. • Explains the importance of protecting the suspension from microorganisms. • Gives an example of a preservative that can be added to the suspension system.
Evaluates the Emulsion System in terms of Pharmaceutical Technology.
• Describes emulsion system • Describes droplet size in emulsion system. • Explains the phases of emulsion system. • Explains the dispersed phase and dispersion phase of the emulsion system. • Gives an example of the polar and apolar component of the emulsion system. • Explains the reasons for preparing the emulsion system. • Lists the types of emulsion system. • Classifies emulsion systems according to their phases. • Classifies emulsion systems according to the ways of use. • Classifies emulsion emulsion systems according to their intended use. • Describes the formation theories of emulsion system. • Describes the emulsifying agent. • Explains the importance of emulsifier in emulsion formation. • Explains the properties of the emulsifying agent. • Classifies emulsifiers. • Sorts synthetic surfactants. • Explains the properties of anionic surfactant. • Gives an example of anionic surfactant. • Explains the properties of cationic surfactant. • Gives an example of cationic surface active agent. • Explains the properties of non-ionic surfactant. • Gives examples of non-ionic surfactants. • Gives an example of natural source emulsifier. • Explains the properties of insoluble solid and fine powder emulsifier. • Explains quin emulsifier. • Explains the importance of the amount and type of emulsifying agent in emulsion system. • Explains the selection criteria of emulsifying agent in emulsion system. • Defines HLB concept in emulsion system • Evaluates the efficiency of HLB value in the emulsion system. • Explains the purpose of triangular phase diagram method in emulsion system. • Lists the preparation methods of emulsion systems. • Explains the preparation of the emulsion system according to the British method. • Explains preparation of emulsion system according to continental method. • Explains the preparation of the emulsion system according to the bottle method. • Selects the appropriate method and makes calculations for the preparation of the emulsion system. • Explains the points to be considered in the preparation of emulsion system. • Explains the tools used in the preparation of the emulsion system. • Defines multiple emulsion system. • Explains the properties of multiple emulsion system. • Explains the purposes of the multi-emulsion system. • Defines the microemulsion system. • Explains the properties of microemulsion system. • Explains the purposes of using microemulsion system. • Compares microemulsion system with macro emulsion system. • Gives an example of the emulsion system which should be prepared sterile. • Lists the required characterization studies in the emulsion system. • Explains the effect of droplet size and distribution on emulsion system. • Explains the importance of zeta potential in emulsion system. • Explains the importance of polydispersity index in emulsion system. • Explains type determination methods in emulsion system. • Explains the importance of centrifugal resistance in emulsion system. • Explains the rheological properties of the emulsion system. • Explains the factors affecting the stability of the system. • Lists the states in which the emulsion decays stability. • Describes the concept of flocculation in emulsion system. • Explains the factors affecting the flocculation in the emulsion system. • Describes the condition of cream formation in emulsion system. • Explains the factors affecting cream formation in emulsion system. • Explains the inversion event in the emulsion system. • Explains the factors affecting the inversion in the emulsion system. • Explains the phase separation event in the emulsion system. • Explains the factors affecting the phase separation in the emulsion system. • Explains microorganism degradation in the emulsion system. • Explains the importance of protecting the emulsion system from microorganisms. • Explains the use of antimicrobial and antioxidant agents in emulsion system. • Gives an example of a preservative that can be added to the emulsion system.
Will be able to Exhibit Basic Skills in the Laboratory.
• Defines the weighing. • Explains points to be considered in weighing. • Learns to measure the substances to be used by weight. • Learns the weighing of solids. • Learns semi-solid weighing. • Learns the weighing of liquids. • Learns to measure the substances to be used by volume. • Learns dropper control. • Learns the degree of alcohol. • Learns alcohol based dilution. • Applies weight-based alcohol dilution. • Applies the volume-based alcohol dilution. • Applies volume-based alcohol dilution. • Defines the packaging. • Explains the importance of packaging. • Recognizes the packaging material. • Lists the packaging materials. • Lists the purpose of packaging. • Lists the points to be considered when selecting packaging material. • Lists the abbreviations used in the recipe. • Explains the meaning of the abbreviations used in prescription.
Will be able to Prepare Solution Prescriptions.
• Gives an example to the solution recipe. • Prepares the solution formulation. • Explains the preparation of oxygenated water. • Indicates the substances and their intended use in the composition of oxygen water. • Makes the necessary calculations for the preparation of oxygen water. • Indicates the usage method, usage purpose and label of oxygen water. • Prepares the oxygen water and delivers it in appropriate packaging. • Explains the preparation of boric acid solution. • Indicates the substances and their intended use in the composition of boric acid solution. • Makes calculations for the preparation of boric acid solution. • Indicates the usage method, usage purpose and label of boric acid solution. • Prepares Boric acid solution and delivers it in appropriate packaging. • Explains the preparation of Rivanol solution. • Indicates the substances included in the composition of the Rivanol solution and their intended use. • Makes calculations for the preparation of Rivanol solution. • Indicates the use of the Rivanol solution, its intended use and its label. • Prepares Rivanol solution and delivers it in appropriate packaging. • Explains the preparation of Lugol solution. • Indicates the substances and their intended uses in the composition of Lugol's solution. • Makes the necessary calculations for the preparation of Lugol solution. • Indicates the usage method, usage purpose and label of Lugol solution. • Prepares Lugol solution and delivers it in appropriate packaging. • Explains the preparation of methylene blue solution. • Indicates the substances and their intended use in the composition of the methylene blue solution. • Makes calculations for preparation of methylene blue solution. • Indicates the usage method, purpose and label of methylene blue solution. • Prepares Methylene blue solution and delivers it in appropriate packaging. • Explains the preparation of dilute lead subacetate solution. • Indicates composition of the dilute lead subacetate solution and their intended use. • Makes the necessary calculations for the preparation of dilute lead subacetate solution. • Indicates the mode of use, purpose of use and label of the diluted lead subacetate solution. • Prepares dilute lead subacetate solution and delivers it in suitable packaging. • Explains the preparation of ethanolic iodine solution. • Describes the substances in the composition of the ethanolic iodine solution and their intended use. • Make necessary calculations for the preparation of ethanolic iodine solution. • Indicates the usage form, the intended use and the label of the ethanolic iodine solution. • Prepares ethanolic iodine solution and delivers it in appropriate packaging. • Explains the preparation of alcohol iodine solution. • Refers to the substances in the composition of the alcohol iodine solution and their intended use. • Makes the necessary calculations for the preparation of alcohol iodine solution. • Refers to the manner of use, the purpose of use and the label of the alcohol iodine solution. • Prepares alcohol iodine solution and delivers it in appropriate packaging. • Explains the preparation of labarak solution. • Indicates the substances in the composition of the Labarak solution and their intended use. • Makes the necessary calculations for the preparation of Labarak solution. • Indicates the usage method, usage purpose and label of Labarak solution. • Prepares Labarak solution and delivers it in appropriate packaging. • Explains the preparation of Dakin solution. • Indicates the substances contained in the composition of the Dakin solution and their intended use. • Makes the calculations necessary for the preparation of the Dakin solution. • Indicates how to use the Dakin solution, its intended use and its label. • Prepares Dakin solution and delivers it in appropriate packaging.
Will be able to Prepare Aromatic Water.
• Describes aromatic water. • Explains the synonyms used for aromatic water. • Explains the usage of aromatic water and its intended use. • Categorizes the methods in the preparation of aromatic waters. • Explains the preparation of aromatic water by dissolution method. • Explains the basic components of aromatic water formulation. • Gives an examples of aromatic water recipes. • Prepares aromatic water recipes. • Explains the preparation of cinnamon juice. • Indicates the substances in the composition of cinnamon water and their intended use. • Makes the necessary calculations for the preparation of cinnamon water. • Indicates the use of cinnamon water, its intended use and its label. • Prepares cinnamon juice in suitable packaging. • Explains the preparation of cinnamon juice recipe. • Indicates the ingredients and their intended use in the composition of the cinnamon juice recipe. • Makes calculations for the preparation of cinnamon juice recipe. • Indicates the use of cinnamon juice recipe, purpose and label. • Prepares the cinnamon juice recipe and delivers it in suitable packaging. • Explains the preparation of mint water. • Indicates the substances in the composition of peppermint water and their intended use. • Makes the necessary calculations for the preparation of mint water. • Indicates the use of mint water, its intended use and label. • Prepares and delivers mint water in appropriate packaging. • Explains the preparation of mint juice. • Indicates the ingredients and their intended uses in the composition of the peppermint juice recipe. • Makes the necessary calculations for the preparation of the peppermint juice recipe. • Indicates the use, label, and label of the mint water recipe. • Prepares the mint juice recipe and delivers it in suitable packaging. • Explains the preparation of melissa water. • Indicates the substances in melissa water composition and their intended use. • Makes the necessary calculations for the preparation of melissa water. • Indicates melissa water usage, usage purpose and label. • Prepares melissa water and delivers in appropriate packaging. • Explains the preparation of melissa juice recipe. • Refers to the ingredients in the composition of the melissa water recipe and their intended use. • Makes the necessary calculations for the preparation of melissa juice recipe. • Refers to use, usage purpose and label of melissa juice. • Prepares melissa juice and delivers it in suitable packaging.
Will be able to Prepare Posion, Collateral, Corrosus and Syrup Prescriptions.
• Identifies posion. • Explains the preparation of Riviera posion. • Specifies the substances in the Riviera posion composition and their intended use. • Makes calculations for the preparation of Riviera posion. • Refers to use, purpose and label of Riviera posion. • Prepares Riviera posion and delivers it in suitable packaging. • Explains the preparation of cardial posion. • Indicates the substances and their intended use in the composition of cardial posion. • Makes necessary calculations for the preparation of cardial posion. • Refers to the use, purpose and label of Cardial posion • Prepares cardial posion and delivers in appropriate packaging. • Explains the preparation of cardial posion prescription. • Indicates the substances in the composition of the cardial posion prescription and their intended use. • Calculates the necessary calculations for the preparation of cardial posion prescription. • Indicates the usage type, purpose of use and label of cardial posion prescription. • Prepares cardial posion formulation and delivers it in appropriate packaging. • Defines collateral. • Explains the preparation of the collateral. • Indicates the substances and their intended use in the collateral composition. • Makes the necessary calculations for the preparation of the collateral. • Indicates the usage type, purpose of use and label of the collateral. • Prepares and delivers the collateral in appropriate packaging. • Defines the corosus. • Explains the preparation of salicylic acid containing corosus. • Indicates the substances and their intended use in the composition of corosuscontaining salicylic acid. • Makes calculations for the preparation of salicylic acid containing corosus. • Indicates the mode of use, the intended use and the label of salicylic acid corosus. • Prepares Salicylic acid containing corosus and delivers it in appropriate packaging. • Identifies simple syrup. • Classifies syrup preparation. • Explains the preparation of simple syrup. • Indicates the substances contained in the simple syrup composition and their intended use. • Makes calculation for simple syrup preparation. • Indicates the usage, usage purpose and label of the simple syrup. • Prepares simple syrups and delivers them in suitable packaging. • Explains the preparation of belladone syrup. • Indicates the substances contained in the composition of belladone syrup and their intended use. • Makes calculations for the preparation of belladone syrup. • Refers to the manner of use, label of belladone syrup. • Prepares belladone syrup and delivers it in appropriate packaging.
Will be able to Prepare Emulsion and Suspension Prescriptions.
• Describes the emulsion. • Defines the emulsion components. • Describes the emulsifying agent. • Categorizes the methods used in selecting emulsifiers. • Defines the HLB system. • Learns to calculate HLB value. • Categorizes emulsion preparation methods. • Defines emulsion preparation methods. • Performs the necessary calculations for emulsion preparation in different proportions. • Makes calculations for emulsion preparation in different percentages. • Performs the necessary calculations for emulsion preparation in different weights. • Explains the preparation of paraffin emulsion. • Indicates the substances and their intended use in the paraffin emulsion composition. • Makes calculations for the preparation of paraffin emulsion. • Indicates the usage form, usage purpose and label of paraffin emulsion. • Prepares and delivers paraffin emulsion in appropriate packaging. • Explains the preparation of fish oil emulsion. • Indicates the substances included in the composition of fish oil emulsions and their intended use. • Makes calculations for the preparation of fish oil emulsion. • Indicates the use of the fish oil emulsion, its intended use and its label. • Prepares and delivers fish oil emulsion in appropriate packaging. • Describes the preparation of the emulsion of indian oil. • Indicates the substances and their intended use in the composition of the indian oil emulsion. • Makes calculations necessary for the preparation of an Indian oil emulsion. • Indicates the usage form, usage purpose and label of the indian oil emulsion. • Prepares the indian oil emulsion and delivers it in suitable packaging. • Explains the preparation of olive oil emulsion. • Indicates the substances in olive oil emulsion composition and their intended use. • Makes calculations for the preparation of olive oil emulsion. • Indicates the usage method, usage purpose and label of olive oil emulsion. • Prepares olive oil emulsion and delivers it in appropriate packaging. • Defines microemulsion. • Defines the microemulsion components. • Explains the structure of microemulsions. • Categorizes microemulsion types. • Defines the triangular phase diagram. • Lists the steps in the drawing of the triangle phase diagram. • Defines the suspension. • Defines the components of the suspension. • Lists suspension preparation methods. • Classifies the auxiliary substances used in the preparation of suspension. • Gives examples of the auxiliary substances used in the preparation of suspension. • Describes the method of geometric dilution. • Categorizes and list controls in suspension. • Explains the preparation of zinc oxide containing suspension. • Indicates the substances contained in the suspension composition containing zinc oxide and their intended use. • Makes calculations for preparation of zinc oxide containing suspension. • Indicates the usage form, usage purpose and label of the zinc oxide containing suspension. • Prepares zinc oxide-containing suspension and delivers it in appropriate packaging. • Explains the preparation of suspension containing salicylic acid. • Indicates the substances and their intended use in the suspension composition containing salicylic acid. • Makes calculations for preparation of suspension containing salicylic acid. • Indicates the way of use and label of salicylic acid suspension. • Prepares the suspension containing salicylic acid and deliver it in suitable packaging. • Explains the preparation of sulfaguanidine containing suspension. • Indicates the substances and their intended use in the suspension composition containing sulfofuanidine. • Performs calculations for the preparation of suspension containing sulfofuanidine. • Indicates the manner of use, suspension, and labeling of sulfohyduanidine-containing suspension. • Prepares Sulfaguanidine-containing suspension and deliveres it in appropriate packaging. • Explains the preparation of suspension containing barium sulfate. • Indicates the substances contained in the suspension composition containing barium sulfate and their intended use. • Makes calculations for the preparation of suspension containing barium sulfate. • Indicates the usage, usage purpose and label of suspension containing barium sulfate. • Prepares suspension containing barium sulfate and delivers it in suitable packaging.