`xl^- + ylO_3^- + zH^+ →l_2+ H_2O`. X, y, z in the given redox reactions are

xI^(-1) + ylO_3 + zH^+ → I_2 + H_2O . x, y, z in the given redox reactions are

Consider the following reaction x MnO_(4)^(-) + C_(2)O_(4)^(2-) + zH^(+) rarr x Mn^(2+) + 2y CO_(2) + (z)/(2)H_(2)O The value of x, y and z in the reaction are respectively

Taking the example of the reaction Cu+NO_(3)^(-)+H^(+)toCu^(2+)+NO+H_(2)O , explain how a redox reaction is balanced by ion electron method.

Consider the following reaction : xMnO_(4)^(-)+yC_(2)O_(4)^(2-)+zH^(+) to xMn^(2+)+2yCO_(2)+(z)/(2)H_(2)O The value of x, y and z in the reaction are, respectively.

The values of the x and y in the following redox reaction. xCl_(2)+6overset(ө)OHrarrCl_(3)^(ө)+yCl^(ө)+3H_(2)O

In the ionic reaction, xBrO3^- + yCr^3+ + ZH_2O → pBr_2 + qHCrO_4^- + rH^+ {x, y, Z, p, q, r, are in simplest whole number ratio} Find the value of (z — x — y).

Consider the following reactions. DeltaH^(@) values of the reactions hve been given as -x, -y and z kJ. Fe_(3)O_(4)(s) to 3Fe(s) + 2O_(2)(g), DeltaH^(@) = z kJ 2Fe(s) + O_(2)(g) to 2FeO(s), DeltaH^(@) =-x kJ 4Fe(s) + 3O_(2)(g) to 2Fe_(2)O_(3)(s), DeltaH^(@) =-y kJ In the given set of reaction, -x//2 kJ refers to

What is the equivalent weight of reductant in the given redox reaction, Cu_(2)S+(5)/(2)O_(2)rarr2CuO+SO_(3)

Consider the following reaction, xMnO_(4)^(-)+yC_(2)O_(4)^(2-)+zH^(+)toxMn^(2+)+2yCO_(2)+(z)/(2)H_(2)O The values of x,y and z in the reactions are, respectively

Identify W, X, Y and Z respectively in the given reactions. CaCO_(3)overset(Delta)toW+X W+H_(2)O to Y Y+Z to NaOH+CaCO_(3)