Given 400 mg of Olive oil, find the theoretical yield of hydrogenated olive oil. Molecular weight of olive oil is 885 g/mol and molecular weight of hydrogenated olive oil is 891 g/mol.
theoretical yield of hydrogenated olive = 402.7 mg
Given 400 mg of Olive oil, find the theoretical yield of hydrogenated olive oil. Molecular weight...
its) Product Information: Mass of Hydrogenated Olive Oil: 1.689 Percent Yield of Hydrogenated Olive Oil:_117.04% (show calculations) d.689 x 100% =497.04€ 0.5389 pints) Product Your product will be handed in to your TA in a vial with the following informat hydrogenated olive oil, the weight of the vial + the cap, and the weight of you product will be graded on both yield and purity. moints) Laboratory Technique Points for good lab technique. You are not required to complete anything...
How to calculate theoretical yield benzil in the hexaphenylbenzene experiment, with 0.753 g of benzoin produced.(molecular weight of benzil is 210.28 and amount used 100ml.) Then theoretical yield of tetraphenylcyclopentadienon with 0.264 g of benzil product. (molecular weight of tetraphenylcyclopentadienone is 384.48 and used 100 mg)
What is the theoretical yield of the below reaction: Theoretical Yield: Hydroquinone Terephthaloyl Polymer Product Chloride C14H9O Molecular C$HO2 CsH4O2Cl2 Formula 203.02 g/mol 110.11 g/mol 327.39 g/mol Molecular Weight Quantity 1.01 g 1.59g
Draw an arrow pushing mechanism and find the theoretical yield for the Grignard reaction below using the following amounts of reagent with the given molecular weights: 565 microliters of 2-bromopropane (molecular weight = 123g/mol) 304 microliters of 4-methoxybenzaldehyde (molecular weight = 136.15g/mol) molecular weight of product = 180.27g/mol The limiting reagent is _____________. In this experiment, you will prepare the Grignard reagent isopropyl-magnesium bromide from 2-bromopropane. You will allow this Grignard reagent to react with 4-methoxy-benzaldehyde to form a secondary...
Given the amounts of reactants, please calculate the theoretical yield of the expected alkene reaction product, in mL. Do not factor the sulfuric acid into your calculations. Your final answer must appear in the box provided, or it will not be counted. 4-methylcyclohexanol ------H2SO4(aq) -----> 4-methylcyclohexene Molecular Weight (grams/mole) 114.2 g/mol 98.08 g/mol 96.2 g/mol density (grams/mL) 0.914 g/mL 0.799 g/mL volume (mL) 28.0 mL mass (grams) moles Theoretical yield in mL=
Question #15: Using the molecular weight (130 g/mol) of methyl (S)-2-methyl-4-oxobutanoate calculated earlier (3.8) and the molecular weight of the product (188 g/mol) predict the theoretical 100% yield of the product in milligrams. Round to the tenths place. mg
(Chapter 16 in the book) Problem 7. The demand for olive oil is given by 120-4p, and the supply of olive oil given by 2p. - 30, where p is the price paid by consumers (demanders) and p, is the price received by producers (suppliers) measured in dollars per hundred gallons. Quantities demanded and supplied are in hundred-gallon units. (a) Draw the demand curve and the supply curve using different colors (b) Write an equation that you need to solve...
How do i calculate the theoretical yield? Benzaldehyde + cyclohexanon = Bis-benzylidene hexanone. I used 0.25 g of benzaldehyde and 0.20g of cyclohexanone to make bis benzylidene hexanone. cyclohexanone Molecular weight was 98.14 g/mol Benzaldehyde molecular weight was 106.12 g/mol
I am given the concentration of a substance in a solution (2.7 mg/100ml) and fhe molecular weight of the substance (180.158g/mol) how do i find the quantity in g of substance?
If given the molecular weight of glucose (180 g/L) how would you convert glucose in mg/dl to mM or mol/L? Need general answer on how to do calculations not needed for specific number.