The judgements or decisions that go into the evaluation of benefits should be explained. Concept Introduction: Benefit is the productive outcome one can incur from committing a certain task or introducing a certain working idea. Before the implementation of any idea or mechanism, it is necessary to evaluate its benefits and to take any decision only after doing so.
The judgements or decisions that go into the evaluation of benefits should be explained. Concept Introduction: Benefit is the productive outcome one can incur from committing a certain task or introducing a certain working idea. Before the implementation of any idea or mechanism, it is necessary to evaluate its benefits and to take any decision only after doing so.
Interpretation: The judgements or decisions that go into the evaluation of benefits should be explained.
Concept Introduction:Benefit is the productive outcome one can incur from committing a certain task or introducing a certain working idea. Before the implementation of any idea or mechanism, it is necessary to evaluate its benefits and to take any decision only after doing so.
(b)
Interpretation Introduction
Interpretation:The judgments or decisions that go into the evaluation of risks should be explained.
Concept Introduction: Risk is the dangerous or regressive outcome one can incur from committing a certain task or introducing a certain working idea. Before the implementation of any idea or mechanism, it is necessary to evaluate its risks and to take any decision only after doing so.
1. Which one(s) of these can be oxidized with CrO3 ?
(could be more than one)
a) triphenylmethanol
b) 2-pentanol
c) Ethyl alcohol
d)
CH3
2. Write in all the product(s) of this reaction. Label them
as "major" or "minor".
2-methyl-2-hexanol
H2SO4, heat
3) Determine if the pairs are constitutional isomers, enantiomers, diastereomers, or mesocompounds.
(4 points)
In the decomposition reaction in solution B → C, only species C absorbs UV radiation, but neither B nor the solvent absorbs. If we call At the absorbance measured at any time, A0 the absorbance at the beginning of the reaction, and A∞ the absorbance at the end of the reaction, which of the expressions is valid? We assume that Beer's law is fulfilled.