Suppose a pure Si crystal has `6xx10^(28)` atoms `m^(-3)`. It is doped by 1ppm concentration of pentavalent As. Calculate the number of electrons and holes, Given that `n_(i)=0.5xx10^(16)m^(-3)`

Suppose a pure Si crystal has 5xx10^(28) atoms m^(-3) . It is doped by 1 ppm concentration of pentavalent As. Calculate the number of electrons and holes. Given that n_(i)=1.5xx10^(16)m^(-3) .

Suppose a pure Si-crystal has 6xx10^(28) "atoms" m^(-3) . It is doped by 1 ppm concentration of pentavalent As. Calculate the number of electrons and holes. Give that n_(i)=1.5xx10^(16)m^(-3) .

Suppose a pure Si-crystal has 5xx10^(28) "atoms" m^(-3) . It is doped by 1 ppm concentration of pentavalent As. Calculate the number of electrons and holes. Give that n_(i)=1.5xx10^(16)m^(-3) .

Suppose a pure Si-crystal has 5xx10^(28) "atoms" m^(-3) . It is doped by 1 ppm concentration of pentavalent As. Calculate the number of electrons and holes. Give that n_(i)=1.5xx10^(16)m^(-3) .

Suppose a pure Si-crystal has 5xx10^(28) "atoms" m^(-3) . It is doped by 1 ppm concentration of pentavalent As. Calculate the number of electrons and holes. Give that n_(i)=1.5xx10^(16)m^(-3) .

Suppose a pure Si-crystal has 5xx10^(28) "atoms" m^(-3) . It is doped by 1 ppm concentration of pentavalent As. Calculate the number of electrons and holes. Give that n_(i)=1.5xx10^(16)m^(-3) .

Suppose a pure Si crystal has 5 xx 10^(28) atoms m^(-3) . It is doped by 1 ppm concentration of pentavalent As. Calculate the number of electrons and holes. Given that n_(i) = 1.5 xx 10^(16) m^(-3) .

Suppose a pure Si crystal has 5 xx 10^(28) atoms m^(-3) . It is doped by 1 ppm concentration of pentavalent As. Calculate the number of electrons and holes. Given that n_(i) = 1.5 xx 10^(16) m^(-3) .

Suppose a pure Si crystal has 5 xx 10^(28) atoms m^(-3) . It is doped by 1 ppm concentration of pentavalent As. Calculate the number of electrons and holes. Given that n_(i) = 1.5 xx 10^(16) m^(-3) .