Computational Physics: Trivial & Non-Trivial Solutions, LCAO

In summary, trivial solutions are those that result in a zero function or vector, while non-trivial solutions are those that are not zero. When discussing basis sets, it depends on whether it is for a molecule or an atom. In physics, we are usually only interested in non-trivial solutions and disregard the trivial ones.
  • #1
sams
Gold Member
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Dear Everyone,

1. Could anyone please explain what is meant by trivial and non-trivial solutions?

2. LCAO:
Ψ = ∑crΦr
Ψ: Molecular orbitals
c: coefficients
Φ: Atomic orbitals
When we talk about basis sets, do we mean here the coefficients or the atomic functions?

Thanks a lot...
 
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  • #2
sams said:
1. Could anyone please explain what is meant by trivial and non-trivial solutions?
http://www.mathwords.com/t/trivial.htm
As far as my experience is concerned, trivial solution is the zero function or vector.
sams said:
When we talk about basis sets, do we mean here the coefficients or the atomic functions?
That depends on which you are talking about, molecule or atom. If the former, then the molecular orbitals are the basis if the latter it's the atomic orbital.
 
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  • #3
When we solve for solutions to differential equations, in physics we are often only interested in nontrivial solutions. I'm not certain of this, but it is my intuition that the space containing the solutions contain some form of a zero element. Physically, we are uninterested in these trivial solutions. So we disregard them.
 
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Related to Computational Physics: Trivial & Non-Trivial Solutions, LCAO

1. What is computational physics?

Computational physics is a branch of physics that uses computer simulations and numerical methods to solve complex problems in various fields of physics, such as quantum mechanics, statistical mechanics, and condensed matter physics.

2. What are trivial and non-trivial solutions in computational physics?

In computational physics, trivial solutions refer to simple, well-known solutions to a problem that can be easily solved without the use of numerical methods. Non-trivial solutions, on the other hand, refer to complex and often unknown solutions that require the use of numerical methods to be solved.

3. What is LCAO in computational physics?

LCAO stands for Linear Combination of Atomic Orbitals and is a common method used in computational physics to model the electronic structure of molecules and solids. It involves combining the atomic orbitals of individual atoms to form molecular orbitals, which can be used to calculate properties such as energy levels and electron density.

4. How does computational physics contribute to scientific research?

Computational physics plays a crucial role in scientific research by allowing scientists to model and simulate complex physical systems that may be difficult or impossible to study experimentally. It also helps to validate and refine theories and can provide insights into new phenomena and properties that may not have been discovered otherwise.

5. What are some common tools and techniques used in computational physics?

Some common tools and techniques used in computational physics include numerical methods, such as finite difference and finite element methods, algorithms for solving differential equations, high-performance computing, and software packages specifically designed for computational physics, such as MATLAB and Mathematica.

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