(iii) How much excess reagent remains after the reaction is complete? Answers: (i) Solution for determining the limiting reagent Determine the moles of Al2S3 and H2O aluminum sulfide: 15.00 g ÷ 150.158 g/mol = 0.099895 mol water: 10.00 g ÷ 18.015 g/mol = 0.555093 mol Divide each mole amount by equation coefficient aluminum sulfide: 0.099895 mol ÷ 1 mol = 0.099895 water: 0.555093 mol ÷ 6 mol = 0.0925155 which is less than 0.099895 (for aluminum sulfide) Therefore
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3)3 Moles for Mn(acac)3: 0.00904mol MW of MnCl2.4H2O: 143.856 gmol Mass ofMnCl2.4H2O: 1.3 g Moles of acetyl acetone: 0.0499 mol Manganese (II) chloride tetra hydrate and acetyl acetone reacts in a 1:1 stoichiometric ratios and therefore Manganese (II) chloride tetra hydrate is clearly a limiting reagent for the reaction above. The maximum amount of Manganese (II) chloride tetra hydrate that can be formed is 0.00904 mol. Mass of Mnacac3 (g) = number of moles × Molecular
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reaction. Let us represent reactant molecules by A and product molecules by B. Then we can re-write the above equation in the following from: A B (1) This is a very simple reaction where A molecules are converted into B molecules or one mole of A disappears for each mole of B forms. As the time progresses‚ the number A molecules decrease and B molecules increase that is shown in the following figure. 100 80 No. of molecules B molecules 60 40 20 0 0 2 4 Time 6 8 10 A molecules When we say “rate”‚
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Skin Cancer Introduction “Skin cancer is a disease in which malignant cancer cells are found in the outer layers of the skin. Skin cancer is the most common type of cancer in the U.S.‚ affecting more than 1 million people each year.” (Health scout 2001-2006 1). Many people don’t take the risk of skin cancer seriously and continue to lie out in sun regardless of the consequences. The consequences of lying out in the sun can be the development of basal cell carcinoma‚ squamous cell carcinoma‚ and/or
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Experiment Four: Organic Synthesis of Aspirin Abstract The purpose of this experiment is to synthesize a common organic product called acetylsalicylic acid (aspirin)‚ and to become familiar with the optimum conditions needed for successful yields. Aspirin is produced from an acid catalyzed reaction between salicylic acid with acetic anhydride. The crystalline aspirin is synthesized and purified by recrystallization‚ although there is not a hundred percent yield due to sources of error. Introduction
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Introduction: The purpose of this lab was to learn how to use salicylic acid to make aspirin. Aspirin is the most widely used over-the-counter drug in the world. The average tablet contains about 325 milligrams of acetylsalicylic acid with an inert binding material such as starch. Aspirin is used to relieve pain‚ reduce inflammation‚ and lower fever. Aspirin originally was derived by boiling the bark of the white willow tree. Although the salicin in willow bark has analgesic properties‚ purified
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developing melanoma by about 74% regardless of the type of tanning bed used. The closer a person lives to the equator as well as how many severe sunburns a person has had will also increase his or her risk. Other risk factors include the number of moles a person has someone who has 50 or more is considered higher risk. Also the complexion of the skin has an effect. The lighter the complexion the higher the chances are because the skin has to produce more melanin to try to protect it. These people
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Quan Chapter 15: Redox Titrations 1. (A) Which of the following is true of a redox titration? (i) Since the redox reaction is spontaneous‚ the equilibrium constant does not have to be large for an effective titration. (ii) The titration effectiveness is increased when the two half-reaction potentials are far apart. (iii) Without an indicator the equivalence point cannot be detected. (iv) For an effective redox titration‚ the reducing agent must always be in the buret. (v) The equivalence
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150.0 mL of a 3.50 M solution? (Assume that the molecular weight of CaBr2 is 200.618 g/mol) 105 g Nitrous oxide (N2O)‚ or laughing gas‚ is commonly used as an anesthetic in dentistry and surgery. How many moles are present in 8.4 liters of nitrous oxide at STP? 0.375 moles How many moles of gas molecules will be present in 5000 L of air at STP? 223.2 mol How many molecules are in 1 mol of sucrose (C12H22O11)? | |6.02 × 1023 molecules | | |What is the empirical
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finished‚ plot a graph showing delta t versus volume of reactants. From the molarity of each reactant and the volume used‚ find the number of moles of each used to produce the maximum temperature. nMOH+ H(11)X = . A) Find the number of moles of base used per mole of acid. B) find the heat of reaction (Delta H) in kilocalories (kcal) per mole of bas used‚ assuming the specific heat of the solution to be 1.00 Cal/degree-gram and the density of the solution to be 1.00 g/ml. use
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