CARBOXYLIC ACIDS
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ALDEHYDES, KETONES AND CARBOXYLIC ACID

28440 When chloroform hydrolysed with \(KOH\). Then the final product is

1 \(HCOOH\)
2 \(HCOOK\)
3 \(CH_3OH\)
4 \((CHCOOK)_2\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28441 Which of the following is the correct order of acidic strength ?

1 \(CF_3COOH > CHCl_2COOH > HCOOH\) \( > C_6H_5CH_2COOH > CH_3COOH\)
2 \(CF_3COOH > HCOOH > CF_3HCOOH\)\( > CHCl_2COOH > C_6H_5CH_2COOH\)
3 \(HCOOH > C_6H_5CH_2COOH >\)\( CF_3COOH > CHCl_2COOH > CH_3COOH\)
4 \(CF_3COOH > CH_3COOH > HCOOH\)\( > CHCl_2COOH > C_6H_5CH_2COOH\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28442 The strongest acid among the following compounds is

1 \(CH_3COOH\)
2 \(CH_3CH_2CH(Cl)COOH\)
3 \(HCOOH\)
4 \(ClCH_2CH_2CH_2COOH\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28443 Product of the following reaction, \(M{{e}_{2}}C=CHC{{H}_{3}}\xrightarrow[\left( ii \right)\,{{H}_{2}}O]{\left( i \right)\,{{O}_{3}}}\) ? are

1 \(Me_2CO+CH_3CHO\)
2 \(CH_3CHO+CH_3COOH\)
3 \(Me_2CO+CH_3COOH\)
4 \(2Me_2CO\)
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ALDEHYDES, KETONES AND CARBOXYLIC ACID

28440 When chloroform hydrolysed with \(KOH\). Then the final product is

1 \(HCOOH\)
2 \(HCOOK\)
3 \(CH_3OH\)
4 \((CHCOOK)_2\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28441 Which of the following is the correct order of acidic strength ?

1 \(CF_3COOH > CHCl_2COOH > HCOOH\) \( > C_6H_5CH_2COOH > CH_3COOH\)
2 \(CF_3COOH > HCOOH > CF_3HCOOH\)\( > CHCl_2COOH > C_6H_5CH_2COOH\)
3 \(HCOOH > C_6H_5CH_2COOH >\)\( CF_3COOH > CHCl_2COOH > CH_3COOH\)
4 \(CF_3COOH > CH_3COOH > HCOOH\)\( > CHCl_2COOH > C_6H_5CH_2COOH\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28442 The strongest acid among the following compounds is

1 \(CH_3COOH\)
2 \(CH_3CH_2CH(Cl)COOH\)
3 \(HCOOH\)
4 \(ClCH_2CH_2CH_2COOH\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28443 Product of the following reaction, \(M{{e}_{2}}C=CHC{{H}_{3}}\xrightarrow[\left( ii \right)\,{{H}_{2}}O]{\left( i \right)\,{{O}_{3}}}\) ? are

1 \(Me_2CO+CH_3CHO\)
2 \(CH_3CHO+CH_3COOH\)
3 \(Me_2CO+CH_3COOH\)
4 \(2Me_2CO\)
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ALDEHYDES, KETONES AND CARBOXYLIC ACID

28440 When chloroform hydrolysed with \(KOH\). Then the final product is

1 \(HCOOH\)
2 \(HCOOK\)
3 \(CH_3OH\)
4 \((CHCOOK)_2\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28441 Which of the following is the correct order of acidic strength ?

1 \(CF_3COOH > CHCl_2COOH > HCOOH\) \( > C_6H_5CH_2COOH > CH_3COOH\)
2 \(CF_3COOH > HCOOH > CF_3HCOOH\)\( > CHCl_2COOH > C_6H_5CH_2COOH\)
3 \(HCOOH > C_6H_5CH_2COOH >\)\( CF_3COOH > CHCl_2COOH > CH_3COOH\)
4 \(CF_3COOH > CH_3COOH > HCOOH\)\( > CHCl_2COOH > C_6H_5CH_2COOH\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28442 The strongest acid among the following compounds is

1 \(CH_3COOH\)
2 \(CH_3CH_2CH(Cl)COOH\)
3 \(HCOOH\)
4 \(ClCH_2CH_2CH_2COOH\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28443 Product of the following reaction, \(M{{e}_{2}}C=CHC{{H}_{3}}\xrightarrow[\left( ii \right)\,{{H}_{2}}O]{\left( i \right)\,{{O}_{3}}}\) ? are

1 \(Me_2CO+CH_3CHO\)
2 \(CH_3CHO+CH_3COOH\)
3 \(Me_2CO+CH_3COOH\)
4 \(2Me_2CO\)
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ALDEHYDES, KETONES AND CARBOXYLIC ACID

28440 When chloroform hydrolysed with \(KOH\). Then the final product is

1 \(HCOOH\)
2 \(HCOOK\)
3 \(CH_3OH\)
4 \((CHCOOK)_2\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28441 Which of the following is the correct order of acidic strength ?

1 \(CF_3COOH > CHCl_2COOH > HCOOH\) \( > C_6H_5CH_2COOH > CH_3COOH\)
2 \(CF_3COOH > HCOOH > CF_3HCOOH\)\( > CHCl_2COOH > C_6H_5CH_2COOH\)
3 \(HCOOH > C_6H_5CH_2COOH >\)\( CF_3COOH > CHCl_2COOH > CH_3COOH\)
4 \(CF_3COOH > CH_3COOH > HCOOH\)\( > CHCl_2COOH > C_6H_5CH_2COOH\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28442 The strongest acid among the following compounds is

1 \(CH_3COOH\)
2 \(CH_3CH_2CH(Cl)COOH\)
3 \(HCOOH\)
4 \(ClCH_2CH_2CH_2COOH\)
ALDEHYDES, KETONES AND CARBOXYLIC ACID

28443 Product of the following reaction, \(M{{e}_{2}}C=CHC{{H}_{3}}\xrightarrow[\left( ii \right)\,{{H}_{2}}O]{\left( i \right)\,{{O}_{3}}}\) ? are

1 \(Me_2CO+CH_3CHO\)
2 \(CH_3CHO+CH_3COOH\)
3 \(Me_2CO+CH_3COOH\)
4 \(2Me_2CO\)
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