DP Chemistry (first assessment 2025)
Reactivity 3.2.10—Functional groups in organic compounds may undergo reduction. Deduce equations to show reduction of carboxylic acids to primary alcohols via the aldehyde, and reduction of ketones to secondary alcohols.
Description
[N/A]Directly related questions
- 19N.1A.SL.TZ0.37: Which can be reduced to an aldehyde? A. Butanone B. Butan-1-ol C. Butanoic acid D. Butan-2-ol
- 19N.1A.SL.TZ0.37: Which can be reduced to an aldehyde? A. Butanone B. Butan-1-ol C. Butanoic acid D. Butan-2-ol
- 19N.1A.SL.TZ0.37: Which can be reduced to an aldehyde? A. Butanone B. Butan-1-ol C. Butanoic acid D. Butan-2-ol
- 19N.1A.SL.TZ0.37: Which can be reduced to an aldehyde? A. Butanone B. Butan-1-ol C. Butanoic acid D. Butan-2-ol
- 19N.1A.SL.TZ0.22: In which species does sulfur have the same oxidation state as in SO32–? A. S2O32– B. ...
- 19N.1A.SL.TZ0.22: In which species does sulfur have the same oxidation state as in SO32–? A. S2O32– B. ...
- 19N.1A.SL.TZ0.22: In which species does sulfur have the same oxidation state as in SO32–? A. S2O32– B. ...
- 19N.1A.SL.TZ0.22: In which species does sulfur have the same oxidation state as in SO32–? A. S2O32– B. ...
-
21M.1A.HL.TZ2.37:
Which can be reduced to a secondary alcohol?
A. C2H5COOH
B. CH3CH2OCH3
C. (CH3)2CHCHO
D. CH3COC2H5
-
21M.1A.HL.TZ2.37:
Which can be reduced to a secondary alcohol?
A. C2H5COOH
B. CH3CH2OCH3
C. (CH3)2CHCHO
D. CH3COC2H5
-
21M.1A.HL.TZ2.37:
Which can be reduced to a secondary alcohol?
A. C2H5COOH
B. CH3CH2OCH3
C. (CH3)2CHCHO
D. CH3COC2H5
-
21M.1A.HL.TZ2.37:
Which can be reduced to a secondary alcohol?
A. C2H5COOH
B. CH3CH2OCH3
C. (CH3)2CHCHO
D. CH3COC2H5