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ALDEHYDES, KETONES AND CARBOXYLIC ACID

28062 The fatty acid which shows reducing property is

1 Acetic acid

2 Ethanoic Acid

3 Oxalic acid

4 Formic acid

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28063 The reagent that can be used to distinguish between methanoic acid and ethanoic acid is

1 Ammoniacal silver nitrate solution

2 Neutral ferric Chloride solution

3 Sodium carbonate solution

4 Phenolphthalein

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28064 Hydrolysis of an ester gives acid \(A\) and alcohol \(B\). \(A\) reduces Fehling solution and oxidation of \(B\) gives \(A\). The ester is

1 Methyl formate

2 Ethyl formate

3 Methyl acetate

4 Ethyl acetate

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28065 Order of reactivity is

1 \(R - \mathop C\limits^{\mathop {||}\limits^O } - X\;\; > RCON{H_2}\;\; > RCOOCOR\;\; > RCOOR\)

2 \(RCOX\; > RCOOCOR\; > RCOOR\; > RCON{H_2}\)

3 \(RCOOR\; > RCON{H_2}\; > RCOX\; > RCOOCOR\)

4 \(RCOOCOR\; > RCOOR\; > RCOX\; > RCON{H_2}\)

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28066 Right order of acidic strength is

1 \(C{H_2}ClCOOH > HCOOH > \)\({C_2}{H_5}COOH > C{H_3}COOH\)

2 \(C{H_2}ClCOOH\;\; > HCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

3 \({C_2}{H_5}COOH\;\; > \;C{H_3}COOH\;\; > \)\(HCOOH\;\; > C{H_2}ClCOOH\)

4 \(HCOOH\;\; > C{H_2}ClCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28062 The fatty acid which shows reducing property is

1 Acetic acid

2 Ethanoic Acid

3 Oxalic acid

4 Formic acid

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28063 The reagent that can be used to distinguish between methanoic acid and ethanoic acid is

1 Ammoniacal silver nitrate solution

2 Neutral ferric Chloride solution

3 Sodium carbonate solution

4 Phenolphthalein

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28064 Hydrolysis of an ester gives acid \(A\) and alcohol \(B\). \(A\) reduces Fehling solution and oxidation of \(B\) gives \(A\). The ester is

1 Methyl formate

2 Ethyl formate

3 Methyl acetate

4 Ethyl acetate

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28065 Order of reactivity is

1 \(R - \mathop C\limits^{\mathop {||}\limits^O } - X\;\; > RCON{H_2}\;\; > RCOOCOR\;\; > RCOOR\)

2 \(RCOX\; > RCOOCOR\; > RCOOR\; > RCON{H_2}\)

3 \(RCOOR\; > RCON{H_2}\; > RCOX\; > RCOOCOR\)

4 \(RCOOCOR\; > RCOOR\; > RCOX\; > RCON{H_2}\)

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28066 Right order of acidic strength is

1 \(C{H_2}ClCOOH > HCOOH > \)\({C_2}{H_5}COOH > C{H_3}COOH\)

2 \(C{H_2}ClCOOH\;\; > HCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

3 \({C_2}{H_5}COOH\;\; > \;C{H_3}COOH\;\; > \)\(HCOOH\;\; > C{H_2}ClCOOH\)

4 \(HCOOH\;\; > C{H_2}ClCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28062 The fatty acid which shows reducing property is

1 Acetic acid

2 Ethanoic Acid

3 Oxalic acid

4 Formic acid

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28063 The reagent that can be used to distinguish between methanoic acid and ethanoic acid is

1 Ammoniacal silver nitrate solution

2 Neutral ferric Chloride solution

3 Sodium carbonate solution

4 Phenolphthalein

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28064 Hydrolysis of an ester gives acid \(A\) and alcohol \(B\). \(A\) reduces Fehling solution and oxidation of \(B\) gives \(A\). The ester is

1 Methyl formate

2 Ethyl formate

3 Methyl acetate

4 Ethyl acetate

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28065 Order of reactivity is

1 \(R - \mathop C\limits^{\mathop {||}\limits^O } - X\;\; > RCON{H_2}\;\; > RCOOCOR\;\; > RCOOR\)

2 \(RCOX\; > RCOOCOR\; > RCOOR\; > RCON{H_2}\)

3 \(RCOOR\; > RCON{H_2}\; > RCOX\; > RCOOCOR\)

4 \(RCOOCOR\; > RCOOR\; > RCOX\; > RCON{H_2}\)

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28066 Right order of acidic strength is

1 \(C{H_2}ClCOOH > HCOOH > \)\({C_2}{H_5}COOH > C{H_3}COOH\)

2 \(C{H_2}ClCOOH\;\; > HCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

3 \({C_2}{H_5}COOH\;\; > \;C{H_3}COOH\;\; > \)\(HCOOH\;\; > C{H_2}ClCOOH\)

4 \(HCOOH\;\; > C{H_2}ClCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28062 The fatty acid which shows reducing property is

1 Acetic acid

2 Ethanoic Acid

3 Oxalic acid

4 Formic acid

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28063 The reagent that can be used to distinguish between methanoic acid and ethanoic acid is

1 Ammoniacal silver nitrate solution

2 Neutral ferric Chloride solution

3 Sodium carbonate solution

4 Phenolphthalein

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28064 Hydrolysis of an ester gives acid \(A\) and alcohol \(B\). \(A\) reduces Fehling solution and oxidation of \(B\) gives \(A\). The ester is

1 Methyl formate

2 Ethyl formate

3 Methyl acetate

4 Ethyl acetate

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28065 Order of reactivity is

1 \(R - \mathop C\limits^{\mathop {||}\limits^O } - X\;\; > RCON{H_2}\;\; > RCOOCOR\;\; > RCOOR\)

2 \(RCOX\; > RCOOCOR\; > RCOOR\; > RCON{H_2}\)

3 \(RCOOR\; > RCON{H_2}\; > RCOX\; > RCOOCOR\)

4 \(RCOOCOR\; > RCOOR\; > RCOX\; > RCON{H_2}\)

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28066 Right order of acidic strength is

1 \(C{H_2}ClCOOH > HCOOH > \)\({C_2}{H_5}COOH > C{H_3}COOH\)

2 \(C{H_2}ClCOOH\;\; > HCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

3 \({C_2}{H_5}COOH\;\; > \;C{H_3}COOH\;\; > \)\(HCOOH\;\; > C{H_2}ClCOOH\)

4 \(HCOOH\;\; > C{H_2}ClCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28062 The fatty acid which shows reducing property is

1 Acetic acid

2 Ethanoic Acid

3 Oxalic acid

4 Formic acid

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28063 The reagent that can be used to distinguish between methanoic acid and ethanoic acid is

1 Ammoniacal silver nitrate solution

2 Neutral ferric Chloride solution

3 Sodium carbonate solution

4 Phenolphthalein

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28064 Hydrolysis of an ester gives acid \(A\) and alcohol \(B\). \(A\) reduces Fehling solution and oxidation of \(B\) gives \(A\). The ester is

1 Methyl formate

2 Ethyl formate

3 Methyl acetate

4 Ethyl acetate

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28065 Order of reactivity is

1 \(R - \mathop C\limits^{\mathop {||}\limits^O } - X\;\; > RCON{H_2}\;\; > RCOOCOR\;\; > RCOOR\)

2 \(RCOX\; > RCOOCOR\; > RCOOR\; > RCON{H_2}\)

3 \(RCOOR\; > RCON{H_2}\; > RCOX\; > RCOOCOR\)

4 \(RCOOCOR\; > RCOOR\; > RCOX\; > RCON{H_2}\)

ALDEHYDES, KETONES AND CARBOXYLIC ACID

28066 Right order of acidic strength is

1 \(C{H_2}ClCOOH > HCOOH > \)\({C_2}{H_5}COOH > C{H_3}COOH\)

2 \(C{H_2}ClCOOH\;\; > HCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

3 \({C_2}{H_5}COOH\;\; > \;C{H_3}COOH\;\; > \)\(HCOOH\;\; > C{H_2}ClCOOH\)

4 \(HCOOH\;\; > C{H_2}ClCOOH\;\; > \)\(C{H_3}COOH\;\; > {C_2}{H_5}COOH\)

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