-3 Mobility of electrons in a semiconductor is defined as the ratio of their drift velocity to the applied electric field. If for an n-type semiconductor, the density of electrons is 10¹⁹ m and their mobility is 1.6 m² (V-s), then the resistivity of the semiconductor 2 semiconductor (since, it is an n-type contribution of holes is ignored) is close to

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. Mobility of electrons in a semiconductor is defined as the
ratio of their drift velocity to the applied electric field. If for
an n-type semiconductor, the density of electrons is 10¹⁹ m-³
and their mobility is 1.6 m² (V-s), then the resistivity of the
semiconductor
2
semiconductor (since, it is an n-type
contribution of holes is ignored) is close to
Transcribed Image Text:. Mobility of electrons in a semiconductor is defined as the ratio of their drift velocity to the applied electric field. If for an n-type semiconductor, the density of electrons is 10¹⁹ m-³ and their mobility is 1.6 m² (V-s), then the resistivity of the semiconductor 2 semiconductor (since, it is an n-type contribution of holes is ignored) is close to
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