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Army Communication Systems Photographic Quality ControlPhotographic Quality ControlIntroductionGeneral InformationLesson 1: Chemical Mixing and StorageSection 1. Why the Chemicals Should be Stored in Airtight ContainersExercisesWhy a Chemical formula would Require more monohydrated chemicals than desicated chemicalsMonohydrated contains water.Water Purification TechniqueWater Purification Technique-cont.ExercisesWhy Equipment and containers made of iron, tin, or zincWhy solutions should not be mixed with the shaft of the electric mixer in the center of the containerWhy solutions should not be mixed with the shaft of the electric mixer-cont.Why solutions should not be mixed with the shaft of the electric mixer-cont.Rearrange, in their proper seqence, a given list of steps that are required when mixing a photographic solutionRearrange, in their proper seqence-cont.Rearrange, in their proper seqence-cont.Rearrange, in their proper seqence-cont.How all chemicals should be regarded and handledHow all chemicals should be regarded and handled-cont.IntroductionWeighing chemicalsPreparation of percentage solutions of dry chemicalsWater of crystallizationThermometersIdentify containers and chemicals with the proper method of storageIdentify containers and chemicals with the proper method of storage-cont.Identify containers and chemicals with the proper method of storage-cont.Identify containers and chemicals with the proper method of storage-cont.Ways photo lab personnel could become poisoned when working with photographic chemicalsExercisesChemical Classification with the potential Hazard of each classChemical Classification with the potential Hazard of each class-cont.Chemical Classification with the potential Hazard of each class-cont.Classification of Dangerous ChemicalsFire/Explosive Hazard chemicalsBasic Chemical Safety RulesDangerous Photographic Materials and Their Antidotes2-Amino-5-Diethylaminotoluene MonohydrochlorideAmino Dimethylaniline MonohydrochlorideAnilineCarbon TetrachlorideFerric OxalateHydrogen PeroxideMercuric ChlorideNitric AcidPhenol (Carbolic Acid)Potassium CyanidePotassium PermanganateSodium CyanideSodium SulfideSulfuric AcidLesson 2: Determining pH and Specific GravityThe pH scale on the meterIdentify Whether two or more solutions are lighter or heavier than distilled waterSection II. The Function and Operation of the Beckman pH MeterOperation ProcedureOperation Procedure-cont.Operation Procedure-cont.Operation Procedure-cont.Operation Procedure-cont.Operation Procedure-cont.Operation Procedure-cont.Specific GravityOperation Procedure-cont.Operation Procedure-cont.Lesson 3: Sensitometry and Photographic Process ControlThe four processing variables and the degree of difficulty to controlThe purpose served by a process control chartThe process control charts-How they are usedThe broken lines Figure 29 represents the next seven days' plotsFigure 30 shows the same thing, only in reverseExercisesLesson 4: Operate Sensitometer, Densitometer, and Plotting Control ChartHow to Produce a Sensistrip-cont.How to Expose the SensistripExercisesSecure the SensitometerExercisesFigure 33. Model 101 SensitometerSection II. Read, Record, and Plot the Densities of the Sensistrip; Determine the GammaFront View of TD-102Locate the 1mm/OFF/2 & 3mm aperture toggle switchExercisesThe Sensitometric Plot SheetPlotting sheet.Figure 34. Drawing straight portion of curve.Figure 35. Using French curve.Figure 37. Plotting a characteristic curve.How to Determine GammaBasic method.Figure 38. Basic method of gamma calculation.Quick method.ExercisesThe Gamma MeterFigure 41. Using a gammeter.Figure 43. Overlap the base line of the gammeter ExercisesSummaryExercise SolutionsBlank PageBlank Page
Army Communication Systems
Photographic Quality ControlPhotographic Quality ControlIntroductionGeneral InformationLesson 1: Chemical Mixing and StorageSection 1. Why the Chemicals Should be Stored in Airtight ContainersExercisesWhy a Chemical formula would Require more monohydrated chemicals than desicated chemicalsMonohydrated contains water.Water Purification TechniqueWater Purification Technique-cont.ExercisesWhy Equipment and containers made of iron, tin, or zincWhy solutions should not be mixed with the shaft of the electric mixer in the center of the containerWhy solutions should not be mixed with the shaft of the electric mixer-cont.Why solutions should not be mixed with the shaft of the electric mixer-cont.Rearrange, in their proper seqence, a given list of steps that are required when mixing a photographic solutionRearrange, in their proper seqence-cont.Rearrange, in their proper seqence-cont.Rearrange, in their proper seqence-cont.How all chemicals should be regarded and handledHow all chemicals should be regarded and handled-cont.IntroductionWeighing chemicalsPreparation of percentage solutions of dry chemicalsWater of crystallizationThermometersIdentify containers and chemicals with the proper method of storageIdentify containers and chemicals with the proper method of storage-cont.Identify containers and chemicals with the proper method of storage-cont.Identify containers and chemicals with the proper method of storage-cont.Ways photo lab personnel could become poisoned when working with photographic chemicalsExercisesChemical Classification with the potential Hazard of each classChemical Classification with the potential Hazard of each class-cont.Chemical Classification with the potential Hazard of each class-cont.Classification of Dangerous ChemicalsFire/Explosive Hazard chemicalsBasic Chemical Safety RulesDangerous Photographic Materials and Their Antidotes2-Amino-5-Diethylaminotoluene MonohydrochlorideAmino Dimethylaniline MonohydrochlorideAnilineCarbon TetrachlorideFerric OxalateHydrogen PeroxideMercuric ChlorideNitric AcidPhenol (Carbolic Acid)Potassium CyanidePotassium PermanganateSodium CyanideSodium SulfideSulfuric AcidLesson 2: Determining pH and Specific GravityThe pH scale on the meterIdentify Whether two or more solutions are lighter or heavier than distilled waterSection II. The Function and Operation of the Beckman pH MeterOperation ProcedureOperation Procedure-cont.Operation Procedure-cont.Operation Procedure-cont.Operation Procedure-cont.Operation Procedure-cont.Operation Procedure-cont.Specific GravityOperation Procedure-cont.Operation Procedure-cont.Lesson 3: Sensitometry and Photographic Process ControlThe four processing variables and the degree of difficulty to controlThe purpose served by a process control chartThe process control charts-How they are usedThe broken lines Figure 29 represents the next seven days' plotsFigure 30 shows the same thing, only in reverseExercisesLesson 4: Operate Sensitometer, Densitometer, and Plotting Control ChartHow to Produce a Sensistrip-cont.How to Expose the SensistripExercisesSecure the SensitometerExercisesFigure 33. Model 101 SensitometerSection II. Read, Record, and Plot the Densities of the Sensistrip; Determine the GammaFront View of TD-102Locate the 1mm/OFF/2 & 3mm aperture toggle switchExercisesThe Sensitometric Plot SheetPlotting sheet.Figure 34. Drawing straight portion of curve.Figure 35. Using French curve.Figure 37. Plotting a characteristic curve.How to Determine GammaBasic method.Figure 38. Basic method of gamma calculation.Quick method.ExercisesThe Gamma MeterFigure 41. Using a gammeter.Figure 43. Overlap the base line of the gammeter ExercisesSummaryExercise SolutionsBlank PageBlank Page
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