starting materials experimental mass (g) experimental mmol vanillin 3.01 sodium borohydride 0.41 product experimental mass (g)...

Complete the stiochiometry table using the starting values provided. Reagent Molecular Weight Grams Millimoles Equivalents Density...

Complete the stiochiometry table using the starting values provided. Reagent Molecular Weight Grams Millimoles Equivalents Density (g/mL) mL vanillin 2.297 sodium borohydride 8.107 sodium hydroxide (1 M aq.) 16.804 theoretical product vanillyl alcohol melting point of vanillyl alcohol (°C) Select the name of the catalyst used for this reaction, if there was no catalyst used, select none:    sodium hydroxide sodium borohydride vanillin none

Complete the stiochiometry table using the starting values provided. Reagent Molecular Weight Grams Millimoles Equivalents Density...

Complete the stiochiometry table using the starting values provided. Reagent Molecular Weight Grams Millimoles Equivalents Density (g/mL) mL vanillin 2.764 xxxxxxxx xxxxxxxx sodium borohydride 12.315 xxxxxxxx xxxxxxxx sodium hydroxide (1 M aq.) xxxxxxxx 24.843 theoretical product xxxxxxxx xxxxxxxx xxxxxxxx xxxxxxxx xxxxxxxx xxxxxxxx vanillyl alcohol xxxxxxxx xxxxxxxx xxxxxxxx melting point of vanillyl alcohol (°C) Select the name of the catalyst used for this reaction, if there was no catalyst used, select none: 1.sodium hydroxide 2. sodium borohydride 3. vanillin 4.none

stoichiometry of an acid basRecord the following masses. a mass of empty beaker (g) 85.000g b...

stoichiometry of an acid basRecord the following masses. a mass of empty beaker (g) 85.000g b mass of beaker plus Na2CO3 (g) 87.000g c mass of Na2CO3 (g) 2.000g Data Analysis Convert the mass of Na2CO3 to moles, given its molar mass (MM) of 105.989 g/mol. 2g/105.989gmol = 0.018869=0.01887 Experiment 2: Neutralization Reaction Lab Results What was the acid in the reaction? HCL Data Analysis How many moles of HCl did you add to fully neutralize the Na2CO3 solution? Experiment...

Synthesis of Hexamminenickel (II) Chloride: Data: Mass of Ni(H2O)6Cl2 = 6.008 g Mass of Ni(NH3)6Cl2 Product...

Synthesis of Hexamminenickel (II) Chloride: Data: Mass of Ni(H2O)6Cl2 = 6.008 g Mass of Ni(NH3)6Cl2 Product = 3.45 g Moles of Ni(H2O)6Cl2 = .024 Theoretical yield of Ni(NH3)6Cl2 in grams =7.5 g A. Calculate percent yield

Complete the stoichiometry table using the starting values provided. reagent molecular weight mass (g) mmoles equivalents...

Complete the stoichiometry table using the starting values provided. reagent molecular weight mass (g) mmoles equivalents density (g/mL) vol. (mL) bromobenzene 0.365 1.943 magnesium 1.361 benzophenone 1 diethyl ether 20.831 theoretical product triphenylmethanol melting point of triphenylmethanol (°C) Select the name of the catalyst used for this reaction, if there was no catalyst used, select none:

1.Calculate the theoretical mass of sodium carbonate that should be produced by heating 1.678 g of...

1.Calculate the theoretical mass of sodium carbonate that should be produced by heating 1.678 g of sodium bicarbonate. 2.If 1.018 grams of sodium carbonate were produced from the sodium bicarbonate in question 1, calculate the percent yield for the bicarbonate decomposition reaction. 3.A classic high school lab experiment involves combining a solution of barium nitrate, Ba(NO3)2, with a sodium sulfate solution, Na2SO4, forming a precipitate of barium sulfate. Ba(NO3)2(aq) + Na2SO4(aq) ---> BaSO4(s) + 2NaNO3(aq) a. Identify the hazards associated...

Sodium Borohydride Reduction Reaction 1. Dissolve 600 mg of your carbonyl compound in 3 mL of...

Sodium Borohydride Reduction Reaction 1. Dissolve 600 mg of your carbonyl compound in 3 mL of methanol. Cover the flask with aluminum foil when not adding reagents or taking TLC samples to keep any water from getting in. 2. Cool your flask to 0° C using ice/water. 3. Allow to stir in the ice for 2 minutes then slowly add 0.4g of NaBH4 to your solution, then remove from ice bath and stir at room temperature. 4. After 10 min,...

Experiment 1: Gravimetric Analysis with Calcium Chloride and Potassium Carbonate In this experiment, proper analytical experimental...

Experiment 1: Gravimetric Analysis with Calcium Chloride and Potassium Carbonate In this experiment, proper analytical experimental techniques will be utilized to perform a double displacement reaction. A solution will be prepared containing a known quantity of calcium chloride. Then, the mass of calcium present will be determined through a careful precipitation of calcium carbonate. You will also investigate the hygroscopic nature of calcium chloride through a comparison reaction. Materials: Scale250 mL Beaker50 mL BeakerStir rod4.0 g Calcium chloride, CaCl25.0 g...