mmm... ok, ok... This may be the reason. Good point. Thank you.The text book figure you quote does not say that it is a plot of the Shockley equation (it is a more realistic curve).
look: -242 Celsius, (if I do Temp < 273.15 Celsius, the graph inverts to the right, but this is no the question, just saying)
Sorry, I meant "if I do Temp < - 273.15". Watch how the curve turns right:I do not understand what you mean by "the graph inverts to the right"; if the temp is less than 0C..
Yes, that is what I have done for example using Geogebra and animating the graph.you will always get a nice smooth exponential curve for I(Vd) vs Vd at a given temp..
Sorry, I meant "if I do Temp < - 273.15"
Yes I know, my comment was only mathematically, analizing the function.It is not possible to go below absolute zero. Hence T (in degrees Kelvin; absolute temperature) cannot be negative.
flaxwalter said:"look: ...the graph inverts to the right, but this is no the question, just saying")
the movement of the electrons inside the material also increases, which results more possibility for conductivity...
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