Given that the abundacne of isotopes `.^(54)Fe`, `.^(56)Fe`, and `.^(57)Fe` is 5%, 90% and 5% respectively. The atomic mass of `Fe` is

Given that the standard reduction potentials E ^(0) of Fe^(+2)|Feis 0.26V and Fe ^(+3) |Fe is 0.76V respectively. The E ^(@)of Fe ^(+2)|Fe^(+3) is:

The effective atomic number of Fe in Fe(CO)_(5) is

Atomic radius of Fe is closest to

An element, X has the following isotopic composition ""^(56)X : 90% ""^(57)X : 8% ""^(57)X: 2.0% . The weighted average atomic mass of the naturallyoccurring element X is closest to

Effective atomic number of Fe in Fe_(2)(CO)_(9) is

If E_(Fe^(3+)//Fe)^(@) and E_(Fe^(2+)//Fe)^(@) are -0.36 V and 0.439 V respectively, then value of E_(Fe^(3+)//Fe^(2+))^(@) is

If E^(c-)._(Fe^(3+)|Fe) and E^(c-)._(Fe^(2+)|Fe) are =-0.36 V and -0.439V , respectively, then the value of E^(c-)._(Fe^(3+)|Fe^(2+))

If E^(c-)._(Fe^(3+)|Fe) and E^(c-)._(Fe^(2+)|Fe) are =-0.36 V and -0.439V , respectively, then the value of E^(c-)._(Fe^(3+)|Fe^(2+))

The number of atoms in 5.4 moles of Fe are?

Given E^(c-)._(Fe^(2+)|Fe) and E^(c-)._(Fe^(3+)|Fe^(2+)) are -0.44 and 0.77V respectively. If Fe^(2+),Fe^(3+) and Fe blocks are kept together, then