18442
(image) \(\xrightarrow[{[Excess]}]{{NaN{H_2}}}P\xrightarrow{{C{H_3}Cl}}Q\), \(Q\) will be
1 \(CH_3-CH_2-C \equiv CH\)
2 \(CH_3-C \equiv C-CH_3\)
3 \(CH_3-CH_2-CH_2-CH_2-Cl\)
4 \(CH_2=CH-CH=CH_2\)
Explanation:
Hydrocarbons
18466
tolune \(\xrightarrow[\Delta ]{{K{M_n}{O_4}}}X\xrightarrow{{B{r_2}/{H_2}O}}Y;\,Y\) is
1
2
3
4
Explanation:
Hydrocarbons
17507
In the preparation of Grignard reagent from haloalkane, the metal
1 \(Mg\)
2 \(Zn\)
3 \(Li\)
4 \(K\)
Explanation:
The Metal used in the preparation of Grignard reagent is Magnesium(\(Mg\)) Haloalkanes and aryl and vinyl halides react with magnesium metal to yield organo-magnesium halides called Grignardreagents. An ether solvent, usually diethyl ether, is required for preparation of Grignard reagents.
Hydrocarbons
17508
Sodium acetate can be converted to ethane by
18442
(image) \(\xrightarrow[{[Excess]}]{{NaN{H_2}}}P\xrightarrow{{C{H_3}Cl}}Q\), \(Q\) will be
1 \(CH_3-CH_2-C \equiv CH\)
2 \(CH_3-C \equiv C-CH_3\)
3 \(CH_3-CH_2-CH_2-CH_2-Cl\)
4 \(CH_2=CH-CH=CH_2\)
Explanation:
Hydrocarbons
18466
tolune \(\xrightarrow[\Delta ]{{K{M_n}{O_4}}}X\xrightarrow{{B{r_2}/{H_2}O}}Y;\,Y\) is
1
2
3
4
Explanation:
Hydrocarbons
17507
In the preparation of Grignard reagent from haloalkane, the metal
1 \(Mg\)
2 \(Zn\)
3 \(Li\)
4 \(K\)
Explanation:
The Metal used in the preparation of Grignard reagent is Magnesium(\(Mg\)) Haloalkanes and aryl and vinyl halides react with magnesium metal to yield organo-magnesium halides called Grignardreagents. An ether solvent, usually diethyl ether, is required for preparation of Grignard reagents.
Hydrocarbons
17508
Sodium acetate can be converted to ethane by
18442
(image) \(\xrightarrow[{[Excess]}]{{NaN{H_2}}}P\xrightarrow{{C{H_3}Cl}}Q\), \(Q\) will be
1 \(CH_3-CH_2-C \equiv CH\)
2 \(CH_3-C \equiv C-CH_3\)
3 \(CH_3-CH_2-CH_2-CH_2-Cl\)
4 \(CH_2=CH-CH=CH_2\)
Explanation:
Hydrocarbons
18466
tolune \(\xrightarrow[\Delta ]{{K{M_n}{O_4}}}X\xrightarrow{{B{r_2}/{H_2}O}}Y;\,Y\) is
1
2
3
4
Explanation:
Hydrocarbons
17507
In the preparation of Grignard reagent from haloalkane, the metal
1 \(Mg\)
2 \(Zn\)
3 \(Li\)
4 \(K\)
Explanation:
The Metal used in the preparation of Grignard reagent is Magnesium(\(Mg\)) Haloalkanes and aryl and vinyl halides react with magnesium metal to yield organo-magnesium halides called Grignardreagents. An ether solvent, usually diethyl ether, is required for preparation of Grignard reagents.
Hydrocarbons
17508
Sodium acetate can be converted to ethane by
18442
(image) \(\xrightarrow[{[Excess]}]{{NaN{H_2}}}P\xrightarrow{{C{H_3}Cl}}Q\), \(Q\) will be
1 \(CH_3-CH_2-C \equiv CH\)
2 \(CH_3-C \equiv C-CH_3\)
3 \(CH_3-CH_2-CH_2-CH_2-Cl\)
4 \(CH_2=CH-CH=CH_2\)
Explanation:
Hydrocarbons
18466
tolune \(\xrightarrow[\Delta ]{{K{M_n}{O_4}}}X\xrightarrow{{B{r_2}/{H_2}O}}Y;\,Y\) is
1
2
3
4
Explanation:
Hydrocarbons
17507
In the preparation of Grignard reagent from haloalkane, the metal
1 \(Mg\)
2 \(Zn\)
3 \(Li\)
4 \(K\)
Explanation:
The Metal used in the preparation of Grignard reagent is Magnesium(\(Mg\)) Haloalkanes and aryl and vinyl halides react with magnesium metal to yield organo-magnesium halides called Grignardreagents. An ether solvent, usually diethyl ether, is required for preparation of Grignard reagents.
Hydrocarbons
17508
Sodium acetate can be converted to ethane by
18442
(image) \(\xrightarrow[{[Excess]}]{{NaN{H_2}}}P\xrightarrow{{C{H_3}Cl}}Q\), \(Q\) will be
1 \(CH_3-CH_2-C \equiv CH\)
2 \(CH_3-C \equiv C-CH_3\)
3 \(CH_3-CH_2-CH_2-CH_2-Cl\)
4 \(CH_2=CH-CH=CH_2\)
Explanation:
Hydrocarbons
18466
tolune \(\xrightarrow[\Delta ]{{K{M_n}{O_4}}}X\xrightarrow{{B{r_2}/{H_2}O}}Y;\,Y\) is
1
2
3
4
Explanation:
Hydrocarbons
17507
In the preparation of Grignard reagent from haloalkane, the metal
1 \(Mg\)
2 \(Zn\)
3 \(Li\)
4 \(K\)
Explanation:
The Metal used in the preparation of Grignard reagent is Magnesium(\(Mg\)) Haloalkanes and aryl and vinyl halides react with magnesium metal to yield organo-magnesium halides called Grignardreagents. An ether solvent, usually diethyl ether, is required for preparation of Grignard reagents.
Hydrocarbons
17508
Sodium acetate can be converted to ethane by
