Due to the presence of ambidenate ligands coordination compounds show isomerism. Palladium complexes of the type `[Pd(C_(6)H_(5))_(2)(SCN)_(2)]` & `[Pd(C_(6)H_(5))_(2)(NCS)_(2)]` are

Due to the presence of ambidenate ligands coordination compounds show isomerism. Palladium complexes of the type [Pd(C_(6)H_(5))_(2)(SCN)_(2)] & [Pd(C_(6H_(5))_(2)(NCS)_(2)] are

Read the passage given below and answer the following questions : The existence of coordination compounds with the same formula but different arragements of the ligands was crucial in the development of coordination chemistry. Two or more compounds with the same formula but different arrangements of the atoms are called isomers. Isomers are compounds with the same molecular formula but different structural formulas and do not necessarily share similar properties. There are many different classes of isomers, like stereoisomers, enantiomers, and geometrical isomers. There are two main forms of isomerism: structural isomerism and stereoisomerism. The different chemical formulas in structural isomers are caused either by a difference in what ligands are bonded to the central atoms or how the individual ligands are bonded to the central atoms. The following questions are multiple choice questions. Choose the most appropriate answer: Due to the presence of ambidentate ligands coordination compounds show isomerism. Palladium complexes of the type [Pd(C_(6)H_(5))_(2)(SCN)_(2)] and [Pd(C_(6)H_(5))_(2)(NCS)_(2)] are

[Pd(NH_(3))_(2)(SCN)_(2)] and [Pd(NH_(3))_(2)(NCS)_(2)] are :

Type of isomerism which exists between [Pd(C_(6)H_(5))_(2)(SCN)_(2)] and [Pd(C_(6)H_(5))_(2)(NCS)_(2)] is :

The following isomers refer to [{(C_(6)H_(5))_"(3)"P}_(2)Pd(SCN)_(2)] and [{(C_(6)H_(5))_(3)P}_(3)Pd(NCS)_(2)]

Type of isomerism which exists between [Pd( C_6H_5)_2 (SCN)_2] and [Pd(C_6H_5)_2(NCS)_2] is