Don’t ask yourself what the world needs; ask yourself what makes you come alive. And then go and do that. Because what the world needs is people who have come alive.
“Be less curious about people and more curious about ideas.”
by Marie Curie, Polish-French physicist
What is the difference between superposition and entanglement?
Quantum entanglement is known to be the exchange of quantum information between two particles at a distance, while quantum superposition is known to be the uncertainty of a particle (or particles) being in several states at once (which could also involve the exchange of quantum information for a particle that is known.
Black Holes and Wormholes FAQ
1 – What is a wormhole?Wormholes are tunnels in space-time that can theoretically allow travel anywhere in space and time, or even into another universe. In many ways, wormholes resemble black hole.2- How is wormhole created?In principle, building a wormhole is pretty straightforward. According to Einstein’s Theory of General Relativity, mass and energy warp the fabric of space-time. And a certain special configuration of matter and energy allows the formation of a tunnel, a shortcut between two otherwise distant portions of the universe3- Is a wormhole possible?A physicist has shown that wormholes can exist: tunnels in curved space-time, connecting two distant places, through which travel is possible.4- Can black holes be wormholes?From the outside, wormholes can appear similar to black holes. But while an object that falls into a black hole is trapped there, something that falls into a wormhole could traverse through it to the other side. No evidence has been found that wormholes exist
Baryon Matter
Baryon matter is the foundation that constitutes every body and object in our Universe. To better understand how it is structured, it is necessary to refer to the classification scheme of the Standard Model as it has been structured over the last century. The Standard Model predicts that matter is basically the product of two types ofparticles,light ones,leptons, and heavy ones, baryons. Both terms derive from the Greek. While leptons are truly fundamental particles, i.e. not further divisible into other particles, baryons are aggregates of other elementary particles such as leptons, quarks that are endowed with fractional charge,i.e. a fraction of the charge of an electron.
What is the antimatter
The antimatter is missing – not from CERN, but from the Universe! At least that is what we can deduce so far from careful examination of the evidence. For each basic particle of matter, there exists an antiparticle with the same mass, but the opposite electric charge. The negatively charged electron, for example, has a positively charged antiparticle called the positron. When a particle and its antiparticle come together, they both disappear, quite literally in a flash, as the annihilation process transforms their mass into energy. The evidence spoke for itself The ‘case file’ of antimatter was opened in 1928 by physicist Paul Dirac. He developed a theory that combined quantum mechanics and Einstein’s special relativity to provide a more complete description of electron interactions. The basic equation he derived turned out to have two solutions, one for the electron and one that seemed to describe something with positive charge (in fact, it was the positron). Then in 1932 the evidence was found to prove these ideas correct, when the positron was discovered occurring naturally in cosmic rays. For the past 50 years and more, laboratories like CERN have routinely produced antiparticles, and in 1995 CERN became the first laboratory to create anti-atoms artificially. But no one has ever produced antimatter without also obtaining the corresponding matter particles. The scenario should have been the same during the birth of the Universe, when equal amounts of matter and antimatter would have been produced in the Big Bang. “Just one more thing…” So if matter and antimatter annihilate, and we and everything else are made of matter, why do we still exist? This mystery arises because we find ourselves living in a Universe made exclusively of matter. Didn’t matter and antimatter completely annihilate at the time of the Big Bang? Perhaps this antimatter still exists somewhere else? Otherwise where did it go and what happened to it in the first place? Such questions have led to speculative theories, from a break in the rules to the existence of an entire anti-Universe somewhere else! The way to solve the baffling disappearance of antimatter, and to learn more about this substance in general, is by studying both particles and antiparticles to find and decipher the subtle clues.
What is the Dark Energy
We know how much dark energy there is because we know how it affects the universe’s expansion. Other than that, it is a complete mystery.
What Is Dark Matter?
Dark matter is composed of particles that do not absorb, reflect, or emit light, so they cannot be detected by observing electromagnetic radiation. Dark matter is material that cannot be seen directly. … Scientists believe that dark matter may account for the unexplained motions of stars within galaxies.
