for intrinsic gallium arsenide, the room temperature electrical conductivity is 10-6 (ωm)-1; the electron and hole mobilities are 0.85 and 0.04 m2/vs respectively. compute the intrinsic carrier 2/vs respectively. compute the intrinsic carrier concentration ni at room temperature.
Intrinsic semiconductor me to fermi level dono bands ke beech me hi rehta h ... even at temperatures other than 0k Jo aap bata rahe ho ...ye to N type semiconductor ke case ne hota h ... N type semiconductor me fermi level conduction band ki taraf shift hota h .. jab ham temperature badhate h And p type me valence band ki taraf shift hota h .. But intrinsic me to fermi level beech me hi rehta h .. vo conduction band ki taraf nhi jaata ... *Plz clear this one ... Plz*
Root 4 =2 in carrier concentration
4 change nahi hoga kya under root k time pr ??????
for intrinsic gallium arsenide, the room temperature electrical conductivity is 10-6 (ωm)-1; the electron and hole mobilities are 0.85 and 0.04 m2/vs respectively. compute the intrinsic carrier 2/vs respectively. compute the intrinsic carrier concentration ni at room temperature.
Sir please solve this step by step sir
Bhut acha
Please use denoise and dereverb effects in your video
Jazak Allah
Sir intrinsic semiconductor mein carrier concentration mein 4 ka square root bhi toh hoga
Good sir nice explaining keep some more videos on semi conductors
Super explanation 😀 sir thank you
❤❤❤❤❤❤❤❤😊
Sir band gap to energy in conduction- energy in valance honi cahiye na to fir to F(E) = Ec-Ev/2 aana chaiye??
❤️🙌
Tnx for helping me sir😘
Intrinsic semiconductor me to fermi level dono bands ke beech me hi rehta h ... even at temperatures other than 0k
Jo aap bata rahe ho ...ye to N type semiconductor ke case ne hota h ... N type semiconductor me fermi level conduction band ki taraf shift hota h .. jab ham temperature badhate h
And p type me valence band ki taraf shift hota h ..
But intrinsic me to fermi level beech me hi rehta h .. vo conduction band ki taraf nhi jaata ...
*Plz clear this one ... Plz*
Thank u sir
Awesome sir ❤️
Mathematics hi btaoge ya physics bhi sikhloage thodi
Plz ,post some more vedios like this on imp derivations.....hope u will.
Where is root for 4 sir
very helpful
Thanks bro easy to understand
Good explaination....
for sure
Forgot to take sqare root of 4 in the first derivation
sir when we remove ni^2 so the expression become ni = 2 remaining expression
here is 2 not 4
Bosdike tujhe jada pta hai kya
Chup chap pad le BC
Sir n and p ki concentration k seprate derivation kaha hai
Plz provide me link
Thank u sir...
Thank you sir
Sir ye to Fermi level hai intrinsic semiconductor ja
Sir send me notes
don't mug up and explain the concept
Anna video delete cheyyu repu mining valla exam undhi😂
thank you sir