The formation of molecular bromine (Br2) from HBr and H2O2 must be derived using redox reactions. Write the balanced redox half reaction for the conversion of H2O2 into H20 under a. acidic conditions. Label the half reaction as either oxidation or reduction. b. Write the balanced redox half reaction for the conversion of Br into Br2. Label the half reaction as either oxidation or reduction. с. Write the balanced net redox reaction Write the ation

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CHEMISTRY 2400
EXPERIMENT 7: BROMINATION OF CINNAMIC ACID WINTER 202.
Equations:
1.
The formation of molecular bromine (Br2) from HBr and H2O2 must be derived using redox
reactions.
a.
Write the balanced redox half reaction for the conversion of H2O2 into H20 under
acidic conditions. Label the half reaction as either oxidation or reduction.
b.
Write the balanced redox half reaction for the conversion of Br into Br2. Label the
half reaction as either oxidation or reduction.
C.
Write the balanced net redox reaction
2.
Write the equation for the reaction of cinnamic acid with molecular bromine (for the organic
compounds, draw the full structures, not condensed formulae).It is not necessary to include
the stereochemistry of the product in this equation.
3.
Write the balanced equation for this experiment by adding these two equations.
NOTE: Equations should be completed using either "line-angle" structures for any organic molecules.
Do not use the molecular formulae.
Transcribed Image Text:CHEMISTRY 2400 EXPERIMENT 7: BROMINATION OF CINNAMIC ACID WINTER 202. Equations: 1. The formation of molecular bromine (Br2) from HBr and H2O2 must be derived using redox reactions. a. Write the balanced redox half reaction for the conversion of H2O2 into H20 under acidic conditions. Label the half reaction as either oxidation or reduction. b. Write the balanced redox half reaction for the conversion of Br into Br2. Label the half reaction as either oxidation or reduction. C. Write the balanced net redox reaction 2. Write the equation for the reaction of cinnamic acid with molecular bromine (for the organic compounds, draw the full structures, not condensed formulae).It is not necessary to include the stereochemistry of the product in this equation. 3. Write the balanced equation for this experiment by adding these two equations. NOTE: Equations should be completed using either "line-angle" structures for any organic molecules. Do not use the molecular formulae.
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