Question
Asked 27 August 2024
  • Independent Researcher

Is chemistry needed for chemical reactions for solving the research officer and on or by other identical methods?

Chemical laboratory process should be so so

All Answers (3)

Jürgen Weippert
Fraunhofer Institute for Applied Solid State Physics
What do you mean by "for solving the research officer"? I don't know if you are aware of this, but this sounds a bit like "how do i get rid of a corpse".
And what do you mean by "other identical methods"? There's biology, chemistry and physics, and scientific methods will always belong to one or quite often several of them.
Abdelhak Maghchiche
University of Batna 2
Chemistry is essential for understanding and controlling chemical reactions, crucial in research and problem-solving across various fields. Even alternative methods often rely on chemical principles for effectiveness.
1 Recommendation
Saroj Kumar Khan
Independent Researcher
Sometimes language is not easy but MrAbdelhokh understood and replied.
Thank you 👍

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If a plane wave is not a wavefunction in quantum mechanics, then why is it commonly misunderstood as a wavefunction?
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  • Iftikhar AhmadIftikhar Ahmad
Plane waves are fundamental concepts in quantum mechanics and are often used to describe free particles. However, there's a common misunderstanding that plane waves themselves are wavefunctions, which fulfill all the required criteria for a physical state in quantum mechanics. This confusion can be attributed to several factors, which this discussion aims to explore:
  1. Definition and Criteria of a Wavefunction: What are the essential criteria that a wavefunction must meet in quantum mechanics? How does a plane wave fit or not fit these criteria?
  2. Misinterpretations in Educational Contexts: How are plane waves presented in textbooks and lectures, and why might this lead to the misunderstanding that they are wavefunctions? Are there specific pedagogical reasons for this simplification?
  3. Mathematical Properties: Discuss the mathematical properties of plane waves and their role in quantum mechanics. How do these properties lead to confusion about their status as wavefunctions?
  4. Physical Interpretation: What is the physical interpretation of a plane wave, and how does it differ from a true wavefunction? What are the implications of these differences for understanding quantum systems?
  5. Common Examples and Analogies: What common examples or analogies are used to explain plane waves and wavefunctions, and how might they contribute to the misunderstanding?
Your insights and experiences on this topic will contribute to a broader understanding of the details and common misconceptions in quantum mechanics. Let's explore this subject and clarify why plane waves, despite their importance, are not considered true wavefunctions.

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