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The effect of measurement on quantum superposition is a crucial aspect of quantum physics. When a measurement is made on a quantum system that is in a superposition of multiple states, the act of measurement "collapses" the system into one of its possible states.

Let's consider an example using the famous thought experiment known as Schrödinger's cat. In this scenario, a cat is placed inside a closed box along with a vial of poison. The release of the poison is linked to the decay of a radioactive atom. According to quantum physics, until the box is opened and the system is observed, the cat is considered to be in a superposition of both alive and dead states.

However, when an observer opens the box and makes a measurement, the superposition collapses into one of the two possible states: either the cat is alive or it is dead. The act of observation causes the system to "choose" one of the states, and the superposition is lost.

This phenomenon is often referred to as the collapse of the wave function. The wave function is a mathematical representation of the quantum system that encodes the probabilities of different outcomes. When a measurement is made, the wave function "collapses" into a single definite state, corresponding to the outcome observed.

It's important to note that the collapse of the wave function is still a topic of debate and interpretation in quantum physics. There are different interpretations, such as the Copenhagen interpretation, which states that the act of measurement is what causes the collapse. Other interpretations, such as the Many-Worlds interpretation, propose that the wave function does not collapse but rather branches into multiple parallel universes, each representing a different outcome.

Overall, the effect of measurement on quantum superposition is a fundamental aspect of quantum physics, illustrating the peculiar nature of quantum systems and the role of observation in determining their states.

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