NaCZ is doped with `2 xx 10^(-2)` mole% of `SrCl_(2)` then the number of cation vacancies per mole

If one mole of AgCl is dopped with 10^(-5) mole of AlCl_3 , the number of cation vacancies created are

In NaCl is doped with 1 xx 10^(-3) mol percent of SrCl_(2) , what is the concentration of cation vacancies ?

If NaCl is doped with 10^(4) mol % of SrCl_(2) the concentration of cation vacancies will be (N_(A) = 6.02 xx 10^(23) mol^(-1))

Read the following passage and answer the questions at the end of it. Conductivity of silicon increases if it is doped with certain other elements. Doping means introduction of small amount of impurities like phosphorus, arsenic or boron in the pure crystal. In pure silicon four valencies are used in bonding with other four adjacent silicon atoms. When a silicon crystal is doped with a group - 15 element (with five valence electrons) such as P, AsSb or Bi, the structure of the crystal lattice remains unchanged. Out of the five valence electrons of group - 15 doped element, four electrons are used in normal covalent bonding with silicon and fifth electron is delocalised and thus conducts electricity Doping a silicon crystal with a group-13 element (with three valence electron) such as B, Al, Ga or In produces a semiconductor with three electrons in dopant. The place where fourth electron is missing is called as electron vacancy or hole. If NaCl is doped with 10^(-3)" mol % " SrCl_(2) then concentration of cation vacancies is

If one mole of AgCZ is dopped with 10^(-5) mole of CaCl_(2) then number of Ag^(+) ions lost from the lattice

In Fe_(0.96)O , per one Avogadro number of oxide ions, x xx 10^(22) Avagadro number of cation vacancies are present x value is

When we concept that one mole of a substance contains the same numbers of elementary entities or one mole of any other substance, we don’t actually need to know what that number is. Sometimes however we will need to work with the actual number of elementary entities in a mole of substance. This number is called Avogadro.s number. N_(A)=6.022137xx10^(23) molecules The unit mol^(-1) which we read as per mole signifies that a collection of N_(A) molecular level entities is equivalent to one mole at the macroscopic level. For example a mole of carbon contains 6.02xx10^(23) atoms of C. A mole of oxygen gas contains 6.02xx10^(23) molecules of O_(2) . The number of atoms present in 8 g of ozone is

10 moles of NaF and 10 moles of AlF_(3) are mixed and uniformly recrystallised to get an FCC Lattice of Fluoride ions. The number of cationic octahedral vacancies formed due to this is 5x. What is x ? (Cations occupy 'oh' voids)

During the crystallisation one fourth mole of Cu_(2) CI_(2) in molten state one millimole of zinc chloride is added. How many cuprous ions are removed? Calculate the number of lattice vacancies created in the crystal.