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is 10 zeptometers

The Tiny, Mighty Up Quark

Have you ever wondered what makes up the world around you? The answer lies in the tiniest particles known to science, quarks. Among these, the up quark is the lightest and most fundamental. It’s so small, it’s almost impossible to imagine. But let’s try to understand it better.

Size of an Up Quark

The size of an up quark is incredibly small, even when compared to other tiny particles. In fact, it’s so small that scientists can’t measure it directly. They believe it to be smaller than one femtometer. To give you an idea, a femtometer is a million times smaller than a nanometer, and a nanometer is a billion times smaller than a meter.

To put it in perspective:

  • If an up quark was the size of a grain of sand, a proton (which is made up of two up quarks and one down quark) would be as big as a house.
  • If an up quark was the size of a marble, an atom would be as large as the Earth.

What Makes Up Quarks Special?

  • Up quarks, along with down quarks, form the neutrons and protons of atomic nuclei. This means they are a significant part of all matter, including you and me!
  • They are part of the first generation of matter, making them some of the oldest particles in the universe.
  • Up quarks have an electric charge of +2/3 e, which helps them bind together to form larger particles.
  • They experience all four fundamental interactions: gravitation, electromagnetism, weak interactions, and strong interactions. This means they play a key role in the forces that shape our universe.

The Discovery of Up Quarks

The existence of up quarks was first suggested in 1964 by scientists Murray Gell-Mann and George Zweig. They proposed the idea of quarks to explain the Eightfold Way classification scheme of hadrons, a group of particles. The up quark was first observed by experiments at the Stanford Linear Accelerator Center in 1968.

Wrapping Up

The up quark may be incredibly small, but it plays a huge role in the universe. It’s a fundamental building block of matter and a key player in the forces that shape our world. So, the next time you look around you, remember that everything you see is made up of these tiny, mighty particles.

Smaller By Category
Quark Down
Parmis les six variétés de quarks (voir Quark Up), les quark up et down sont les plus légers. Ce Quark Down a une charge électrique de -1/3.
Quark Étrange
Les quarks étranges sont très étranges. Ils sont 50 fois plus lourds que les quarks Up, mais ils sont plus petits ! N'est-ce pas étrange ?
Quark Charme
Le quark charm et le quark étrange sont de la seconde génération de matière. Ils vont rapidement décliner en quark up et down, qui sont de la première génération. Le Quark Charme est charmant, non ?
Larger By Category
Neutrino à Haute Energie
Les Neutrinos à haute énergie sont des neutrinos plus grands. Pour connaître la taille d'un neutrino, dé-zoomez jusqu’à Neutrino. Ils sont carrément 15 000 fois plus petits !
Portée de la Force Faible
La force d'interaction faible est l'une des quatre interactions fondamentales de la nature, et c'est la plus faible des deux interactions nucléaires. Au fur et à mesure que la distance augmente, sa force diminue. A 10 attomètres, sa force est si faible qu'elle n'est pas mesurable.
Les Distances Plus Petites Que Celle-Ci Ne Sont Pas Confirmées.
Tous les objets plus petits que cette distance n'ont pas été réellement mesurés. La taille à laquelle ils apparaissent n'est qu'une estimation. Certains objets, comme l'écume quantique, ne sont que des théories. Ils ne sont pas prouvés.