An unknown compound (A) (molarmass = 180) on acylation gives a product (molar mass = 390) than find the number ofhydroxyl group present in compound (A).

Find the number of 3^@C present in the given compound

Find the number of sp^2 - sp^2 carbons present in the given compound

Aniline reacts with bromine in acetic acid to give a white solid compound. The number of bromine atoms present in compound is

Ethyl cyanide is reduced with SnCl_2 and HCI, compound (A) is formed, which on hydrolysis gives product (B). The no. of pure orbitals present in the compound(B)

An organic compound (P) has carbon = 40%, hydrogen = 6.6%. Its vapour density is 90. It forms penta acyl derivatives. Though it gives positive Fehling's test and positive Tollen's test it does not have - CHO group. Compound (P) on oxidation gives two hydroxy acids (Q) and (R ). (Q) is a dihydroxy dicarboxylic acid with formula C_(4)H_(6)O_(6) while (R ) is a monocarboxylic acid with formula C_(2)H_(4)O_(3) . The compound (P) on methylation followed by oxidation gives another carboxylic acid C_(8)H_(14)O_(7) . (S) containing three methoxy groups The compound (Q) is

An organic compound (P) has carbon = 40%, hydrogen = 6.6%. Its vapour density is 90. It forms penta acyl derivatives. Though it gives positive Fehling's test and positive Tollen's test it does not have - CHO group. Compound (P) on oxidation gives two hydroxy acids (Q) and (R ). (Q) is a dihydroxy dicarboxylic acid with formula C_(4)H_(6)O_(6) while (R ) is a monocarboxylic acid with formula C_(2)H_(4)O_(3) . The compound (P) on methylation followed by oxidation gives another carboxylic acid C_(8)H_(14)O_(7) . (S) containing three methoxy groups The compound (S) is

Empirical formula is the simplest formula of the compound which gives the atomic ratio of various elements present in one molecule of the compound. However the molecular formula of the compound gives the number of atoms of various elements present in one molecule of the compound. Molecular formula = (Empirical formula) xxn Which pair of species have same percentage composition of carbon?

An organic compound (P) has carbon = 40%, hydrogen = 6.6%. Its vapour density is 90. It forms penta acyl derivatives. Though it gives positive Fehling's test and positive Tollen's test it does not have - CHO group. Compound (P) on oxidation gives two hydroxy acids (Q) and (R ). (Q) is a dihydroxy dicarboxylic acid with formula C_(4)H_(6)O_(6) while (R ) is a monocarboxylic acid with formula C_(2)H_(4)O_(3) . The compound (P) on methylation followed by oxidation gives another carboxylic acid C_(8)H_(14)O_(7) . (S) containing three methoxy groups The carbohydrate (P) is

A compound is formed by two elements M and N . The element N forms ccp and atoms of M occupy (1)/(3) rd of tetrahedral voids . What is the formula of the compound ? i) Find the number of tetrahedral voids as number of tetrahedral voids = 2 xx number of atoms present in the lattice . ii) Calculate the number of atoms (or ratio) of elements M and N as a chemical formula represents the number of atoms of different elements presents in a compound . iii) Derive the formula .

Oxidation number is the charge which an atom of an element has in its ion or appears to have when present in the combined state. It is also called oxidation state. Oxidation number of any atom in the elementary state is zero. Oxidation number of a monoatomic ion is equal to the charge on it. In compounds of metals with non metals, metals have positive oxidation number while non metals have negative oxidation numbers. In compounds of two difference elements, the more electronegative element has negative oxidation number whereas the other has positive oxidation number. In complex ions, the sum of the oxidation number of all the atoms is equal to the charge on the ion. If a compound contains two or more atoms of the same element, they may have same or different oxidation states according as their chemical bonding is same or different. The oxidation state of the most electronegative element in the products of the reaction between BaO_(2) and H_(2)SO_(4) are