1-butanol yields 1-bromobutane in the presence of concentrated sulfuric acid and an excess of sodium bromide.
CH3CH2CH2CH2OH (l) → CH3 CH2CH2CH2Br (l)
If 17.12 mL of 1-butanol produced 14.77 g of 1-bromobutane, the percentage yield of the product equals:
(Assume the density of 1-butanol is 0.81 g/mL, the molar mass of 1-butanol is 74 g/mol, and the molar mass of 1-bromobutane is 137 g/mol.)
%
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1-butanol yields 1-bromobutane in the presence of concentrated sulfuric acid and an excess of sodium bromide....
In an SN2 Nucleophilic substitution, 1-bromobutane is synthesized by refluxing 1-butanol with sodium bromide and sulfuric acid. Would this reaction produce 1-bromobutane by the same mechanism if 2-methyl-2-butanol was used instead?
2. The reaction of 9.0 g of 1-butanol (MW = 76g/mol) with 13.0 g of sodium bromide (MW = 103 g/mol) with excess acid produces 8.5 g of 1-bromobutane (MW 137 g/mol). a. What is the purpose of the acid? b. What is the % yield for the reaction? Show your calculations.
3 part question
Determine the theoretical yield (IN GRAMS) for 1-bromobutane if you start with 109 mmol of butanol nd excess acid and sodium bromide. (Note: the stoichiometric relationship between butanol and romobutane is 1:1) Convert the theoretical yield of 1-bromobutane to moles. Convert the moles to mmol. please clearly explain how to do this using the below information with thr correct sig figs Structure for 1-butanol Molecular weight for 1-butanol density for 1-butanol Bonpoint butanol 117.7°C 74.12 gimol 81...
The SN2 reaction with 1 Butanol and sodium bromide and sulfuric acid. what is the major byproduct?
please clearly explain how to do this using the below
information with thr correct sig figs
Ba Convert 0.1290 mol of sodium bromide to mmol of sodium bromide b. Convert 0.1290 mol of sodium bromide to grams. nwart 225.0 mmol of sulfuric acid to ml of sulfuric acid. (hint-you will use the formula mass AND density in the conversion.) 5. a. Determine the theoretical yield (IN GRAMS) for 1-bromobutane if you start with 109 mmol of butanol and excess acid...
Sulfuric acid and sodium carbonate react to form carbon dioxide, water, and sodium sulfate as shown in the balanced equation below: H2SO4(aq) + Na2CO3(s) + CO2(g) + H2O(1) + Na2SO4(aq) In the presence of excess sulfuric acid, how many moles of CO2 would be released if you have 12.50 g of Na2CO3(s)? The molar mass of sodium carbonate is 106.0 g/mol, the molar mass of sulfuric acid is 98.08 g/mol, and the molar mass of carbon dioxide is 44.01 g/mol....
Carbon-hydrogen bonds exhibit a range of different chemical reactivity that depends on molecular structure. Classify the C-H bonds at the carbons labeled a-c in the structure below. Possible classifications are: primary, secondary, & tertiary or none if there are no hydrogens at the labeled carbon. C-H bond(s) at a C-H bond(s) at b or C-H bond(s) at v primary secondary tertiary 2 item attempts Submit Answer Try Another Version none 1-Bromopropane was prepared by heating 11.1 g of sodium bromide...
What is the theoretical yield of 1-bromobutane? The reactants are 2.02 g of sodium bromide and 2 g of 1-butanol
please help with clear explanation of steps using the table of
information
4. Convert 225.0 mmol of sulfuric acid to mL of sulfuric acid. (hint-you will use the formula mass AND density in the conversion.) Structure for 1-butanol Molecular weight for 1-butanol density for 1-butanol Boiling point 1- butanol 1117.7°C 74.12 g/mol он .81 gram Structure for 1-bromobutane Molecular weight for 1-bromobutane density for 1-bromobutane Boiling pointi bromobutane Br- 137.02g/mol 1.27g/cm3 101.4°C Chemical formula for Sodium Bromide Molecular weight for...
how to calculate actual yield in moles and actual yield in
grams?
15g
+ CH,CH,CH,CH,OH 1-butanol NaBr + H2SO4 → CH2CH2CH2CH2Br + NaHSO4 + 1,0 sodium sulfuric 1-bromobutane bromide acid 102.9 15.0 g MM: mass: volume: moles: 74.1 9.25 g 11.4 mL 0.125 98.1 23 g 12.5 mL 0.235 137.0 117.1 g (theory) 13.4 mL (theory) 0,125 (theory) 0.145 338 1.84 bp (°C): 117 D (g/mL): 0.81 n20: 1.3991 102 1.28 1.4401