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Euler's formula, which states that e^(iθ) = cos(θ) + i sin(θ), is a fundamental mathematical relationship that connects exponential functions, trigonometric functions, and complex numbers. While Euler's formula is a powerful tool in mathematics and finds applications in various fields, including quantum physics, it does not directly hint at the particle-wave duality in quantum mechanics.

Particle-wave duality in quantum physics refers to the concept that elementary particles, such as electrons or photons, can exhibit both particle-like and wave-like behavior. The wave-like behavior is described by wave functions, which are mathematical functions that provide a probabilistic description of the particle's properties, such as position or momentum.

Euler's formula, with its complex exponential form, is often used in quantum mechanics to express wave functions and describe the time evolution of quantum systems. The wave function itself represents the probabilistic behavior of the particle, including its wave-like characteristics.

In quantum mechanics, the wave function is typically represented by a complex-valued function, which can be expressed in terms of the exponential function using Euler's formula. However, it is important to note that in this context, the complex exponential does not represent the particle itself, nor do the cosine and sine terms explicitly represent the wave aspect. Rather, they are different mathematical representations of the wave function that capture its phase and amplitude information.

Particle-wave duality in quantum mechanics is a deeper and more profound concept that goes beyond the specific mathematical form of Euler's formula. It involves the fundamental principles of superposition, wave-particle complementarity, and the probabilistic interpretation of the wave function. These concepts are described and understood through the mathematical framework of quantum mechanics, which utilizes wave functions, operators, and equations such as the Schrödinger equation, rather than Euler's formula alone.

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