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In physics, the term state is used in several related senses,
each of which expresses something about the way a physical system is.
- State is sometimes used as a synonym for phase of
matter.
- In thermodynamics, a state is the specification of a
particular combination of physical properties (temperature, volume, pressure).
- In statistical physics, a state is a detailed
description of a collection of atoms or other particles.
- In the study of dynamical systems, a physical system is
typically modeled as a differential equation. The
variable in such an equation is often called the state of the system. In some cases, this coincides with the
thermodynamic sense, or it may be more abstract.
- In quantum mechanics, the state vector of an object contains information about the way that object currently is.
Mathematically, the state vector Ψ of a particle, also called particle's wavefunction, is represented by e^i(kx - ωt). In this formalism, the letter t denotes a moment in
time, and the letter x denotes the particle's position at moment in time t. The
parameters k, and ω, are mathematically related to the speed, and mass of the particle. Thus, a particle's state vector contains information about the position,
mass, and speed of the particle. Additionally, large bodies which are composed of particles, also have an associated state
vector. It should be noted that the concept of a "state vector" has led to some confusion in physics, as is evidenced by the
paradox known as schrodinger's cat.
- The term state can also be used as a synonym for a moment in time, a point of time, a single instant. Since
the universe as a whole can be considered a system of particles, we can speak of the state of the universe, using the
same meaning used in statistical physics. In other words when we refer to the "state of the universe," we are referring to the
way the entire universe currently is; or to put this still another way, we would be referring to the quantum mechanical state
vector of the entire universe.
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