In a pure semiconductor, the number of conduction electron is `6xx10^(19)` per cubic meter. How many holes are there in a sample of size 1 cm x 2 cm x 2mm ?

In pure semiconductor, the number of conduction electrons is 6 xx 10^18 per cubic metre. How many holes are there in a sample of size 1 cm x 1 cm x 1 mm?

In a pure semiconductor the number of conduction electrons is 6xx10^(19) per cubic metre.How many holes are there in a sample of size 1cmxx1cmxx1mm?

In an intrinsic (pure) semiconductor, the number of conduction electrons is 7xx10^(19) per cubic meter. Find the total number of current carriers (electrons & holes ) in a same semiconductor of size 1 cm x 1 cm x 1mm.

In an intrinsic (pure) semiconductor, the number of conduction electrons is 8xx10^(19) per cubic meter. Find the total number of current carriers (electrons & holes ) in a same semiconductor of size 1 cm x 1 cm x 1mm.

The area of a rectangle of size 1.23 xx 2.345 cm is

The product of the hole concentration and the conduction electron concentration turns out to be independent of the amount of any impurity doped. The concentration of conduction electrons in germanium is 6xx10^19 per cubic metre. When some phosphorus impurity is doped into a germanium sample, the concentration of conduction electrons increases to 2xx10^28 per cubic metre.Find the concentration of the holes in the doped germanium.

A semiconductor is known to have an electron concentration of 6xx10^(12) per cubic centimeter and a hole concentration of 8xx10^(13) per cubic centimeter. Is this semiconductor N-type or P-type ?

A semiconductor is known to have an electron concentration of 6xx10^(12) per cubic centimeter and a hole concentration of 9xx10^(13) per cubic centimeter. Is this semiconductor N-type or P-type ?

An oil drop has 6.39 xx 10^(-19)C charge .How many electrons does this oil drop has ?

Calculate the resistivity of an n-type semiconductor from the following data:density of conduction electrons =8xx10^13cm^(-3) ,density of holes =5xx10^12cm^(-3), mobility of conduction electron =2.3xx10^(4)cm^(2)V_(-1)s_(-1) and mobility of holes =100cm^(2)V_(-1)s_(-1 ).