Why is the complex number i essential in defining the momentum operator p?

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The complex number i is essential in defining the momentum operator p in quantum mechanics, specifically expressed as Px = -ih. This relationship arises from the need to maintain Galilean invariance and to ensure that the derivative operator remains real-valued when multiplied by i. The connection between complex numbers and momentum is further illustrated through the kinetic energy of confined particles, where the wave function's negative second derivative necessitates the inclusion of i to accurately represent momentum in relation to kinetic energy.

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why is complex number i involved in defining momentum operator p
I mean Px=-ih...
What has complex number to do with momentum.

I do get however that i in other cases of quantum mechanics has to do with euler's formula that comes from harmonic nature of wave.
 
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dpa said:
why is complex number i involved in defining momentum operator p
I mean Px=-ih...
What has complex number to do with momentum.

I do get however that i in other cases of quantum mechanics has to do with euler's formula that comes from harmonic nature of wave.

Its not a matter of definition - you can actually derive it from Galilaian invariance - you can find the derivation in Ballentine - Quantum Mechanics - A Modern Development. But aside from that the derivative part is a pure imaginary operator and real valued operators should - well be real - multiplying it by i makes it real.

Thanks
Bill
 
And if you think about it from the perspective of kinetic energy, you can say the same thing like this. Confining a particle in a small region requires giving the particle kinetic energy, and it also requires getting the particle's wave function to have a negative second derivative (so you can get the wavefunction to be large in the confined region and small outside of it). Since KE ~ P2, the momentum must inherit a meaning related to the square root of the kinetic energy. The square root of a second derivative is like d/dx, but a square root of a minus second derivative is like i d/dx.
 

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