#quanta

ep.1 | ep2 ꩜the crowd꩜ | ep.3

Lily! She is ferdinand's old sister before quanta kame in, she got killed by a Rouge toon (might be Dandy, mabie...)

Opal! She is the first Cat pet rock toon, she became twisted after eating raw meat whit ichor on it

Aripa! She is haloine and infernek' Young sister like siblings,she is a super rare tipe.

Aniways goodbye everybody and enjoy this while i play or draw!!!

The human dream of reaching the stars is slowly starting to materialize, although we are probably only at the beginning of this path… How can we make it possible to reach unimaginably far during our lifetime and preferably in a relatively short time? Is Einstein's theory of black holes or other "shortcuts" possible? In the face of the current fascination of the scientific world with the extraordinary world of quanta, it seems that really everything is possible…

These small particles can be in two distant places at the same time, simultaneously ruining all our previous knowledge about the world that surrounds us. There is also the issue of quantum entanglement, recently popular among quantum cosmologists; entangled objects behave as if time and space did not exist for them. In addition, it has been observed that time is going backwards, quanta can develop in the opposite way to time, e.g. they renew themselves. HERE MORE ABOUT WHY TIME CAN FLOW BACKWARDS. It seems that we do not know much about the world around us, but quanta can shed a completely new light on our knowledge and if they are related to a completely different definition of time, it can also help us in space travel in the distant… or maybe not so distant future?

Light exhibits several quantum properties that are fundamental to its behavior:

1. Wave-Particle Duality: Light exhibits both wave-like and particle-like properties, known as wave-particle duality. It can behave as both continuous electromagnetic waves and discrete packets of energy called photons.

2. Quantization of Energy: Light comes in discrete energy levels or quanta. Each photon carries a specific amount of energy determined by its frequency or wavelength. The energy of a photon is given by E = hf, where E is energy, h is Planck’s constant, and f is the frequency.

3. Superposition: Like other quantum particles, light can exist in a superposition of states. This means that it can simultaneously be in multiple quantum states until measured, at which point it collapses into a single state.

4. Quantum Entanglement: In certain situations, photons can become entangled, which means the properties of one photon become correlated with the properties of another, even when they are physically separated. This phenomenon is essential in quantum optics and quantum information science.

5. Quantum Interference: Photons can exhibit interference patterns when their waves overlap. This interference can be constructive (adding up to a brighter region) or destructive (resulting in dark regions). This behavior is commonly observed in experiments like the double-slit experiment.

6. Photon Polarization: Photons can be polarized, which means their electric field oscillations occur in a particular direction. Polarization is a quantum property that can be used in various applications, including polarized sunglasses and quantum communication.

7. Quantum Uncertainty: The Heisenberg Uncertainty Principle applies to light as well. This principle states that it’s impossible to simultaneously know both the exact position and momentum (or equivalently, wavelength and frequency) of a photon with infinite precision.