this is relative term not absolute term in the PNP transistor - the base(+0.7 V) is less positive with respect to collector(+5 V) so relative to collector, potential of base is lower but if we compare the emitter(0 V, bcoz it's earthed) to base(+0.7 V) then base is at higher potential.
Great visuals and explanation sir but i have a doubt ...if we attach a positive voltage to the base of PNP transitor , wouldn't that become reverse biased??
This series is amazing. Thanks so much for your explanations and visuals.
the way u draw those lines and arrows is so satisfying
Your explanations are amazing !
Ta da!
Very clear explanation
Simply amazing !
Excellent💯👏
A very good explanation about the topic
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Thanks alot, now i understand how to identity npn and pnp type
if you feel u unappreciated i am here and I'm really grateful
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How can the base terminal of a transistor be both positive and negative at the same time in a common base configuration?
this is relative term not absolute term
in the PNP transistor - the base(+0.7 V) is less positive with respect to collector(+5 V) so relative to collector, potential of base is lower
but if we compare the emitter(0 V, bcoz it's earthed) to base(+0.7 V) then base is at higher potential.
Great visuals and explanation sir but i have a doubt ...if we attach a positive voltage to the base of PNP transitor , wouldn't that become reverse biased??
Wow
thank you
Thanks 👍🏻
v nice
Can someone explain what will happen if colector base junction also forward biased?
All the current would flow from through the base. So there would be collector-base current and emitter-base current.
@@stevepreston7879 thanks
😄🤘🤘
Why emitters small in comparison to collector
look at the previous video
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Hi
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Hardly needed