`Si_(2)O_(7)^(6-)` anion is obtained when:

(Si_(2)O_(5))_(n)^(2n-) anion is obtained when:

When orange solution containing Cr_(2)O_(7)^(2-) ion is treated with an alkali, a yellow solution is formed and when H^(+) ions are added to yellow solution, an orange solution is obtained. Explain why does this happen?

When orange solution containing Cr_(2)O_(7)^(2-) ion(A) is treated with an alkali, a yellow solution (B) is formed and when H^(+) ions are added to yellow solution, an orange solution is obtained.. What are A and B

H_(2)O_(2) can be obtained when following reacts with H_(2)SO_(4) excepts with

Silicon forms a very large number of compounds containing SiO_(4)^(4-) anion as the basic unit. The structure of this basic unit is a tetrahedron in which oxygen atoms are arranged tetrahedral around a silicon atom. The total number of oxygen shared per tetrahedron in Beryl [Be_(3)Al_(2)Si_(6)O_(18)]

Consider the following oxyanions: PO_(4)^(3-),P_(2)O_(6)^(4-),SO_(4)^(2-),MnO_(4)^(-),CrO_(4)^(2-),S_(2)O_(5)^(2-),S_(2)O_(7)^(2-) and find the value of R+Q-P where P-number of oxy anions having three equivalent X-O bonds per central atom Q=number of oxy anions having two equivalent X-O bonds per central atom. R=Number of oxy anions having four equivalent X-O bonds per central atom.