(A) `-NO_(2),-CN,-CNO` act as ambident nucleophles.
(R) These consist atoms of same period.

(A) CH_(3)CH_(2)Br+AgCN to underset(("major"))(CH+(3)CH_(2)NC)+underset(("minor"))(CH_(3)CH_(2)CN) (R) .^(-)CN is an ambident nucleophilic therefore reaction gives both cyanide and isocyanide.

The - I effect of -NO_(2),-CN,-COOH,-Cl decreases in the order

In the following questions, a statement of assertion (A) is followed by a statement of reason (R ) A : N_(2) CO and CN^(-) are having same bond order. R: Isoelectronic species always have same bond order .

When a particle is performing SHM of time period T_(1) the force acting on it is F_(1) for a certain displacement. When the same particle is performing SHM of time period T_(2) the force acting is F_(2) for the same displacement. What will be the time period of the particle when a combined force of F_(1) and F_(2) produce the same displacement in SHM is different cases?

Na_(2)S + Na_(2)[Fe(CN)_(5)NO]to " X" (Violet colour) The total number of possible isomers for complex " X" is , provided the ambident behaviour of CN^(-) is not considered.

Set of continuos atomic number of elements are present in the same group as well as same period.

Assertion (A) : The isotopes are the atoms of the same element with different atomic masses. They require different positions in the periodic table. Reason (R) : Variable number of neutrons in the nuclei of the atoms of same elements leads to the different atomic masses.