A fundamental characteristic of quantum mechanics is that energy, momentum, and other quantities are quantized, meaning they can only take on discrete values, unlike in classical physics where they are continuous.

The concept of energy existing in discrete packets, known as quanta, was introduced by Max Planck in 1900. This foundational idea led to the development of quantum theory, distinguishing Planck as the key figure in this area.

The term 'quantum' refers to the smallest indivisible unit of energy, representing discrete packets of energy in quantum mechanics. While photons are energy carriers, 'quantum' is the broader term for energy units.

Light exhibits both particle-like properties, as seen in photons, and wave-like properties, described by probability waves in quantum mechanics. Thus, the correct answer is 'Particles and probability waves'.

The double-slit experiment illustrates wave-particle duality by showing that particles like electrons can exhibit both wave-like and particle-like behavior, depending on whether they are observed.

The interference pattern indicates that electrons exhibit wave-like behavior, allowing them to be in multiple places at once, which is a fundamental principle of quantum mechanics.

Measuring a quantum system causes it to collapse into a definite state due to the observer effect, which forces the system to choose a specific outcome from its possible states.