Why Does Wave Reflect at Impedance Discontinuity?

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A wave reflects at an impedance discontinuity due to the mismatch in characteristic impedance between different media. When a transmission line ends in a short circuit, the reflected wave experiences a 180-degree phase shift, while an open-ended line results in no phase shift. Characteristic impedance is defined as the ratio of voltage to current in a transmission line at high frequencies, influenced by the line's inductance and capacitance. The wave's velocity is affected by the medium's permittivity, which varies with frequency. Understanding these principles is crucial for analyzing wave behavior in transmission lines.
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Why does a wave reflect when it meets an impedance discontinuity? And why is there a 180 degrees phase shift of the reflected wave when the transmission line finished with short circuit and no phase shift when the far end of the line is opened?
 
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Tell us what you know so far about these questions, so that we can help you. We do not provide solutions to homework and coursework questions here on the PF (that's against our rules), but we are more than willing to help if you show us what your thoughts are so far.

Like, how do you define characteristic impedance? What is the relationship between the wave and the impedance of the medium that it is traveling through?
 
The characteristic impedance of a cable (it was coaxial cable I was interested in) is, as far as i know, its high frequency impedance (if we supply the line with some signal, the line draws some current from the source and the ratio voltage/current defines the characteristic impedance of the cable. (the cable acts as a series of LC cells, and is lossy because of its resistance)
As regards the relation betwen wave and medium impedance, I don't know if there is a general formula to characterize this. I know that the wave's velocity depends on medium permitivity which in turn is dependendent on waves' frequency.
 
Thread 'Have I solved this structural engineering equation correctly?'

Thread 'Have I solved this structural engineering equation correctly?'

Hi all, I have a structural engineering book from 1979. I am trying to follow it as best as I can. I have come to a formula that calculates the rotations in radians at the rigid joint that requires an iterative procedure. This equation comes in the form of: $$ x_i = \frac {Q_ih_i + Q_{i+1}h_{i+1}}{4K} + \frac {C}{K}x_{i-1} + \frac {C}{K}x_{i+1} $$ Where: ## Q ## is the horizontal storey shear ## h ## is the storey height ## K = (6G_i + C_i + C_{i+1}) ## ## G = \frac {I_g}{h} ## ## C...
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