Application of schrodinger's equation

In summary, Schrodinger's equation is a mathematical equation used to describe the behavior of quantum particles in various systems. It is applied in science to predict the behavior of these particles and has key principles such as wave-particle duality and uncertainty. Schrodinger's equation has real-world applications in the development of quantum technologies and the study of chemical reactions. However, it has limitations in explaining certain behaviors and cannot be used for systems with multiple particles.
  • #1
elshennawy
4
0
Plz i want to know the practical applications of schrodinger's equation ??
 
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  • #2
All of quantum mechanics. If the answer appears too broad, it's really because of the breadth of the question.
 
  • #3
can u give me some examples !
 
  • #4
It would take a textbook. Or several. Please think about your question more carefully.
 
  • #5
i want to know how we can use it in our work in real life !
 
  • #6
This is pointless. You have to do some work - you can't expect us to type in a textbook.
 

1. What is Schrodinger's equation?

Schrodinger's equation is a mathematical equation that describes the behavior of quantum particles, such as electrons, in a given system.

2. How is Schrodinger's equation applied in science?

Schrodinger's equation is used to predict the behavior of quantum particles in various systems, such as atoms, molecules, and solids. It is also used in the development of quantum mechanical models and technologies.

3. What are the key principles of Schrodinger's equation?

The key principles of Schrodinger's equation include wave-particle duality, superposition, and uncertainty. It also describes the probabilistic nature of quantum particles and their behavior.

4. What are some real-world applications of Schrodinger's equation?

Schrodinger's equation has various real-world applications, including the development of quantum computers, lasers, and transistors. It is also used in the study of chemical reactions and materials science.

5. Are there any limitations to Schrodinger's equation?

While Schrodinger's equation is a powerful tool for understanding the behavior of quantum particles, it has some limitations. It does not fully explain the behavior of particles in certain situations, such as high-energy collisions, and it cannot be used to describe systems with multiple particles.

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