`Be_(2)C+4H_(2)O to 2X+CH_(4)`
`X+2OH^(-)toY`
(X) and (Y) formed in the above two reactions is

Be_2C+4H_2Orarr2X+CH_4 X+2HClrarrY 'X' and 'Y' formed in the above two reactions are -

R-CH=CH-CHO+NH_(2)-overset(O)overset("||")C-NHNH_(2)overset(H^(+))to X (X) in the above reaction is

Consider the following reaction sequence , CH_(3)CH(OH)CH_(3) overset("Conc" H_(2)SO_(4))underset("Heat")(to) X underset(H_(2)O) overset("dil." H_(2)SO_(4))(to) Y X and Y in the reaction respectively are

C_6H_5-O-CH_2CH_3+HI overset(Delta)(rarr)X + Y Identify X and Y in the above reaction?

Assertion (A) : The order of the reaction, CH_(3)COOC_(2)H_(5) + H_(2)O hArr CH_(3)COOH + C_(2)H_(5)OH is 2 . Reason (R ): The molecularity of this reaction is 2 .

CH_(3)CH_(2)OH underset(443 K)overset(Conc. H_(2)SO_(4))(rarr) X+H_(2)O Complete the above reaction and explain the mechanism.

R-OH + HX to R -X + H_(2)O In the above reaction the reactivity of different alcohols is

R-OH + HX to R -X + H_(2)O In the above reaction the reactivity of different alcohols is

CH_(3)-C-=CHunderset(dil.H_(2)SO_(4))overset(HgSO_(4))(to) product Product of the above reaction is