Give the type of isomerism exhibited by each of the following pairs:
a. Acetic acid and methyl formate
b. `o-` Nitrophenol and `m-` nitrophenol
c. `n-` Butance and isobutance
d. Maleic and fumaric acid
e. Benzyl alcohol and `o-` methyl phenol
f. Propionic acid and methyl acetate
g. `n-`Butyl alcohol and diethyl ether
h. `1,1-` Dibromoethane and `1,2-` dibromoethane

Give the product obtained from the oxidation of the following compounds with acidic K_(2)Cr_(2)O_(7). a. Cyclobutene , b. 1- Methyl cyclobutene c. 1,2- Dimethyl cyclobutene

Give the decreasing order of acidic strength of the following : (a) CH_4 (b) H_2 O ( c) HF (d) NH_3 ( e) LiH (f) BeH_2 .

Identify all the possible alkenes that would be formed on the dehydrohalogenation of the following organic halides with alcoholic KOH . Also, identify the major alkene. a. 1- Chloropentane b. 2- Chloropentane c. 2-chloro-2-methyl butane d. 2-Chloro-3-methyl butane e. 3- Chloro-2-methyl pentane

Fill in the blanks by choosing the appropriate word/words from those given in the brackets. (Monohydric, dihydric, trihydric, nitration, sulfonation, resonance stabilizaton, acidic, basic, FeCl_(3)ZnCl_(2) , more, less, aldehydes, ketones, Tollens' reagent, Luca's reagent, o-nitrophenol, p-nitrophenol, ethene, diethyl ether, fit, unfit, be, not be, O_(2),Cl_(2) , alkyl halides, oxonium, hydronium, alkyl, lone pairs of electrons, ethyl iodide, ethyl hydrogen sulfate, perchlorodiethyl ether, methyl iodide, ethyl hydrogensulfate, perchlorodiethyl ether, methyl iodide, dialkyl, hydrogen bonding, violet, green) Phenols are ............. acidic than alcohols.

Fill in the blanks by choosing the appropriate word/words from those given in the brackets. (Monohydric, dihydric, trihydric, nitration, sulfonation, resonance stabilizaton, acidic, basic, FeCl_(3),ZnCl_(2) , more, less, aldehydes, ketones, Tollens' reagent, Luca's reagent, o-nitrophenol, p-nitrophenol, ethene, diethyl ether, fit, unfit, be, not be, O_(2),Cl_(2) , alkyl halides, oxonium, hydronium, alkyl, lone pairs of electrons, ethyl iodide, ethyl hydrogen sulfate, perchlorodiethyl ether, methyl iodide, ethyl hydrogensulfate, perchlorodiethyl ether, methyl iodide, dialkyl, hydrogen bonding, violet, green) Benzyl alcohol and phenol can be distinguished by using ........... reagent.

Fill in the blanks by choosing the appropriate word/words from those given in the brackets. (Monohydric, dihydric, trihydric, nitration, sulfonation, resonance stabilizaton, acidic, basic, FeCl_(3)ZnCl_(2) , more, less, aldehydes, ketones, Tollens' reagent, Luca's reagent, o-nitrophenol, p-nitrophenol, ethene, diethyl ether, fit, unfit, be, not be, O_(2),Cl_(2) , alkyl halides, oxonium, hydronium, alkyl, lone pairs of electrons, ethyl iodide, ethyl hydrogen sulfate, perchlorodiethyl ether, methyl iodide, ethyl hydrogensulfate, perchlorodiethyl ether, methyl iodide, dialkyl, hydrogen bonding, violet, green) Methyl alcohol is ............ for drinking purposes.

Fill in the blanks by choosing the appropriate word/words from those given in the brackets. (Monohydric, dihydric, trihydric, nitration, sulfonation, resonance stabilizaton, acidic, basic, FeCl_(3)ZnCl_(2) , more, less, aldehydes, ketones, Tollens' reagent, Luca's reagent, o-nitrophenol, p-nitrophenol, ethene, diethyl ether, fit, unfit, be, not be, O_(2),Cl_(2) , alkyl halides, oxonium, hydronium, alkyl, lone pairs of electrons, ethyl iodide, ethyl hydrogen sulfate, perchlorodiethyl ether, methyl iodide, ethyl hydrogensulfate, perchlorodiethyl ether, methyl iodide, dialkyl, hydrogen bonding, violet, green) Methyl alcohol is ............. toxic than ethanol.

Fill in the blanks by choosing the appropriate word/words from those given in the brackets. (Monohydric, dihydric, trihydric, nitration, sulfonation, resonance stabilizaton, acidic, basic, FeCl_(3)ZnCl_(2) , more, less, aldehydes, ketones, Tollens' reagent, Luca's reagent, o-nitrophenol, p-nitrophenol, ethene, diethyl ether, fit, unfit, be, not be, O_(2),Cl_(2) , alkyl halides, oxonium, hydronium, alkyl, lone pairs of electrons, ethyl iodide, ethyl hydrogen sulfate, perchlorodiethyl ether, methyl iodide, ethyl hydrogensulfate, perchlorodiethyl ether, methyl iodide, dialkyl, hydrogen bonding, violet, green) The higher boiling points of alcohols as compared to isomeric ethers are due to the existence of .......... between their molecules.

Fill in the blanks by choosing the appropriate word/words from those given in the brackets. (Monohydric, dihydric, trihydric, nitration, sulfonation, resonance stabilizaton, acidic, basic, FeCl_(3)ZnCl_(2) , more, less, aldehydes, ketones, Tollens' reagent, Luca's reagent, o-nitrophenol, p-nitrophenol, ethene, diethyl ether, fit, unfit, be, not be, O_(2),Cl_(2) , alkyl halides, oxonium, hydronium, alkyl, lone pairs of electrons, ethyl iodide, ethyl hydrogen sulfate, perchlorodiethyl ether, methyl iodide, ethyl hydrogensulfate, perchlorodiethyl ether, methyl iodide, dialkyl, hydrogen bonding, violet, green) Phenol on .......... readily gives picric acid because the - OH group is ............ directing.

Acetic acid on reaction with hydrazoic acid (N_3 H) in the presence of H_2 SO_4 followed by heating and hydrolysis in basic medium gives acetamide. Methyl isocyanate (Me-N=C=O) is formed is an intermediate compound.