using english Rendement about chemistry
Practical
Report on Analytical Chemistry Basics
Method: Gravimetry
Sub Method: Gravimetry Cation
Precipitation of Cation Pb2 + as Deposition of PbCrO4 with K2CrO4 Reagent
by Gravimetris
1. Destination Experiment:1.1 Precipitation of the cations of the sample by the Gravimetric method.1.2 Use of a precipitating reagent in accordance with the Gravimetri method.1.3 Precipitate Pb2 + cations from sample Pb (CH3COO) 2 as a pure GravimetricPbCrO42. Basic TheoryGravimetry is one of the quantitative methods of analysis by means of weighingthe pure precipitate. The first stage of gravimetric analysis is the separationof the components to be known from the other components contained in a sampleand then carried out the precipitation. The measurement in the gravimetricmethod is by weighing, the number of components analyzed is determined bythe relationship between the sample weight to be analyzed, the relativeatomic mass, the relative molecular mass and the weight of the precipitatedreaction.
In this method there are some important technical steps and need to be considered,which include:1. The process of precipitation of substances (component samples with reagents2. The filtration process of the precipitate3. Washing process from sediment4. Drying process with or without annealing (oven / bunzen)5. Weighing process of sediment (constant weight)3. Observation DataNot all gravimetric methods are based on precipitation formation, some are basedon the excision of a component as a gas, then the reaction product is weighed.For example, carbonate determination can be done by adding acid, so the carbonatedecomposes into carbon dioxide gas and then the gas is captured and weighed.Gravimetry is the oldest and cheapest way of analysis. It's just that gravimetrytakes a relatively long time and can only be used for considerable componentcontent.
Samples (Pb (CH3COO) 2) with a thorough weight = 0.48 grams,Contains "Cation" (Pb2 +) with the theoretical weight of the calculationEqual to = 0,3058 gram-ion.The reagents used (K2CrO4-0.1M) containing "Anions" (CrO42-),With the amount of volume used for quantitative or perfect deposition(Until over saturated) = 8.0 milliliters.Basic Reaction: Pb2 + + CrO42- ↔ PbCrO4 ↓ yello (Samples) (reagents)The weight of the settling apparatus (evaporating cup) = 28.56 grams(Filter paper) = 0.55 gramsDrying / heating time and weighing period = 8 minutesSample Weight:(Pb (CH3COO) 2)Volume Reagents:(K2CrO4)Weight Tool and Sludge:(Drying / Heating-Weighing Weight Pure Deposition:(PbCrO4)0.48 grams
Form :Cation = 0,3058 gram-ion Concentration:0.1 M
Volume:8.0 mL 1. 29.45 grams2. 29.43 grams3. 29.42 grams 4. 29.42 gram 0.31 gramPure precipitate weight =(cup weight + filter paper + sediment) - (cup weight + filter paper)= 29,42 - (28,56 + 0,55)= 29.42 - 29.11= 0.31 gram-ionCalculation: Theoretical Weight Cation =Weight Cation of the sample (Pb (CH3COO) 2) / Pb2 += Ar Pb2 + / Mr Pb (CH3COO) 2 x sample weight= 207.19 / 325.19 x 0.48 grams= 0.6371 x 0.48 grams= 0.3058 gram-ion Practical Weight Cation= Weight Cation from Deposition (PbCrO4) / Pb2 += Ar Pb2 + / Mr Pb (CH3COO) 2 x by weight of pure precipitate= 207.19 / 325.19 x 0.31 grams= 0.1975 gram-ionConclusion:Rendemen= Practical Results / Theoretical Results x 100%= Weight Cation Deposition / Weight Cation Sample x 100%= 0.1975 gram-ion / 0,3058 gram-ion x 100%= 64.5% 4. ConclusionsFrom the experiments that have been done obtained the following conclusions:1. To precipitate Pb2 + cations from sample Pb (CH3COO) 2 was carried out byGravimetric method.2. In the precipitation of Pb2 + cations from sample Pb (CH3COO) 2 by Gravimetrisis used K2CrO4 settling reagent ie with the formation of yellow PbCrO4 precipitate.3. In the Pb2 + cation settling experiment from sample Pb (CH3COO) 2 as PbCrO4precipitate pure by Gravimetris obtained 64.5% yield.
Please provide an explanation of the prediction match with your rendement results? thanks
BalasHapusRendemen is the ratio of the amount (quantity) of oil produced from the extraction being experimented so that the estimate can be appropriate and this rendement uses the percent unit.Eg the example taken is the quality of the oil produced is usually inversely proportional to the number of rendaments produced. The higher the resulting rendamen the lower the quality obtained.As well as each such experiment the material used has different rendemen and also Each plant has a different rendamen value when the exsperimenkan using plant material
HapusHAI RIN, please you explain what the function from K2CrO4 in your experiments ? thanks
BalasHapusK2CrO4 serves as an indicator in this experiment and also as a tester on this experiment
HapusFrom rendement the value theorytica result and practicaly result, which one that must nearly value ?
BalasHapusHow to calculate the yield in percentage ie = the amount of material produced divided by the amount of material processed. So it can be said that the corresponding result is in accordance with the theory if the experiment is done that already many people who do and when we do the experiment failed then mistakes in the experiment took place, so it is not in accordance with the theory. A theory that before in use by the general public has been tested several times so that can be made a good reference for everyone.
HapusPlease explain why To precipitate Pb2 + cations from sample Pb (CH3COO) 2 done by gravimetric method?
BalasHapusBecause in this gravimetric experiment is used to see how many deposits obtained in each experiment of compound mixed.Thus, the nature of the precipitate stems from theoretical conditions, it can still be called other traits or problems, but which are based on practical demands, ie to facilitate or accelerate the settlement of this gravimetric deposition analysis. But these three traits also have a theoretical meaning. These three problems are the physical form of the precipitate, the desirable crude, the voluminous or bulky deposition, and the "specific" precipitate. To facilitate the discussion of these three issues, we should review the process of gravimetric analysis. This process consists of stages:
HapusA. Dissolving analysts
B. Set the state of the solution, eg ph, tempratur
C. Form the precipitate
D. Growing sediment crystals
E. Filter and wash the sediment
F. Heating or permitting to obtain dry and certain deposits; Also to remove filter paper
G. Cool down and weigh the sediment
How to calculate with gravimetry?
BalasHapusCalculations on gravimetry as well as calculations to determine the calculation of other compounds.
HapusGravimetry is one of the quantitative methods of analysis by means of weighing
BalasHapusthe pure precipitate.
please explain it
So with the calculation and rendement it will be produced pure sediment so that with a compound through the process of gravimetry will be produced pure sediment.
Hapus