Wave Function: Physical Basis of 1st Order Derivative

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In summary, the requirement for the wave function to have a finite and continuous first order derivative is based on the need for it to carry finite momentum and energy in a finite interval. This can be seen in the equations \int_{x-\epsilon}^{x+\epsilon}dy\,\psi^\ast\,(i\partial_y)\,\psi and \int_{x-\epsilon}^{x+\epsilon}dy\,\psi^\ast\,(-\partial^2_y)\,\psi. Additionally, the concept of darkness is simply the absence of light and does not have any speed or resistance. Light is the force that pushes darkness away and the expansion of the universe is not affected by the presence or absence of light.
  • #1
phoenixnitc
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What is the physical basis for the requirement that the wave function has finite and continuous first order derivative?
 
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  • #2
b/c only then it carries finite momentum and energy in a finite interval

[tex]\int_{x-\epsilon}^{x+\epsilon}dy\,\psi^\ast\,(i\partial_y)\,\psi[/tex]

[tex]\int_{x-\epsilon}^{x+\epsilon}dy\,\psi^\ast\,(-\partial^2_y)\,\psi[/tex]
 
  • #3
Thank you.That really helped me a lot.
 
  • #4
Why don't we feel the rotation of the Earth when we observe it from a helicopter?
 
  • #5
Has "D-WAVE Systems" really developed a quantum computer?
 
  • #6
Is there any branch of physics that deals with the neural networks in the brain?
 
  • #7
i was thinking about light.
a particle and/or a wave ?
but what about darkness.?
does darkness move at the speed of light?
does light move at the speed of darkness?
does light really bend around corners or is it pulled around by darkness?
in a dark universe, does the universe expand when light appears?
does light "push" darkness away ?

your thoughts
 
  • #8
Darkness is nothing but the absence of light.
One can definitely say that speed of darkness is equal to the speed of darkness as when light travels the darkness vanishes away.
Light pushes the darkness and darkness has zero resistance in stopping the light.
I guess that the expansion of universe has nothing to do with the light as it is expanding because of the bodies that are travelling.
 

1. What is a wave function?

A wave function is a mathematical description of the quantum state of a system. It is used to predict the probability of finding a particle in a specific location or state.

2. What is the physical basis of the 1st order derivative in the wave function?

The physical basis of the 1st order derivative in the wave function is the momentum of a particle. The derivative represents the rate of change of the wave function with respect to position, and can be related to the momentum of a particle through the Heisenberg uncertainty principle.

3. How does the wave function relate to the Schrödinger equation?

The Schrödinger equation is a fundamental equation in quantum mechanics that describes the evolution of a quantum system over time. The wave function is the solution to the Schrödinger equation, and can be used to calculate the probability of finding a particle at a specific position and time.

4. Can the wave function be observed or measured?

No, the wave function itself cannot be observed or measured. It is a mathematical construct used to describe the probability of finding a particle in a certain state. However, the effects of the wave function can be observed through experiments and measurements.

5. How is the wave function used in quantum mechanics?

The wave function is a central concept in quantum mechanics and is used to describe the behavior of particles on a quantum scale. It is used to calculate probabilities of particle states and is essential in understanding the behavior of subatomic particles and the nature of quantum systems.

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