What is Continuity of Function and How Does it Lead to A+B=C?

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Continuity of a function ensures that the function and its derivative are equal at a specific point, which is crucial in solving problems like the simple-step scattering problem in quantum mechanics. At x=0, the continuity condition leads to the relationship A + B = C, establishing that the sum of the coefficients A and B equals the value of the function at that point. Additionally, the continuity of the derivative provides another relationship, A - B = -qC/(ik). Understanding these relationships clarifies how continuity contributes to the equation A + B = C. This foundational concept is essential for analyzing wave functions in quantum mechanics.
nathangrand
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In this post: https://www.physicsforums.com/showthread.php?t=230996

..continuity of the function is described. I don't understand what this means but know that it leads to A+B=C

Can someone offer an explanation as to what continuity is and why it leads to this
 
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nathangrand said:
In this post: https://www.physicsforums.com/showthread.php?t=230996

..continuity of the function is described. I don't understand what this means but know that it leads to A+B=C

Can someone offer an explanation as to what continuity is and why it leads to this
Here is a part of what was posted in the link to which you refer:
analyzing the simple-step scattering problem for E<V, we find that the solution to the schroedinger equation is:

PHI(left) = Aexp(ikx)+Bexp(-ikx)
PHI(right) = Cexp(-qx)

Continuity of the function and it's derivative at x=0 gives the relations between the parameters A, B and C.

The function, Φ(x), is continuous at x=0 provided that:
lim(x→0)Φ(x) = Φ(0) = lim(x→0+)Φ(x).
This gives A + B = C = Φ(0)
The derivative is continuous if a similar relationship holds for it.

This gives: A ‒ B = -qC/(ik)
 
Thanks I get it now!
 

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