Nghĩa của từ beijing electron positron collider (bepc) bằng Tiếng Việt

1. The Beijing Electron–Positron Collider II (BEPC II) is a Chinese electron–positron collider, a type of particle accelerator, located in Beijing, People's Republic of China.

2. At both institutes he worked on the ALEPH experiment and Large Electron–Positron Collider at CERN.

3. The 3.8-metre (12 ft) wide concrete-lined tunnel, constructed between 1983 and 1988, was formerly used to house the Large Electron–Positron Collider.

Đường kính hầm là 3,8 m, có cấu trúc bê tông, được xây dựng trong các năm từ 1983 đến 1988, nguyên được dùng làm nơi chế tạo máy Large Electron-Positron Collider.

4. And the positron (positively charged electron) is the Antiparticle of the electron that is negatively charged.

5. One signature of positron - electron annihilation is gamma rays carrying 511 thousand electron - volts ( keV ) of energy.

6. The positron (β +) is the Antiparticle of the electron (β − particle)

7. We investigate physicss properties of positronium and the way of positron - electron annihilation.

8. History: SLAC and Stanford have had a very long history of designing, building, and operating electron-positron Colliders leading to several Nobel Prizes: CBX [0.13 GeV x 0.13 GeV two ring collider at Stanford 1963-1967] SPEAR [2.5 GeV x 2.5 GeV one ring collider at SLAC 1972-1988] PEP [15 GeV x 15 GeV one ring collider at SLAC 1980-1988]

9. The Antiparticle corresponding to an electron is a positron, which has the same mass as an electron but a positive charge.

10. The antihydrogen atoms are composed of a positron (an antimatter electron) orbiting an antiproton nucleus.

11. Positron, positively charged subatomic particle having the same mass and magnitude of charge as the electron and constituting the Antiparticle of a negative electron

12. For example, the Antiparticle of the electron is the antielectron (which is often referred to as positron)

13. 1 Collider production 2 Upgrade a collider 2.1 Upgrade the speed of Colliders 2.2 Upgrade the cost of Colliders 3 Collisions 4 Collider Types 4.1 God of Taps 4.2 Quantum Foam 4.3 Photon 4.4 Neutrino 4.5 Electron 4.6 Quark A collider generates a particle, every time their progress bar is full

14. In 1941 he proposed the interpretation of the positron as a positive energy electron traveling backward in time.

15. Box Collider Box Collider for the Button's front plate.

16. Reactions such as e− + e+ → γ + γ (the two-photon annihilation of an electron-positron pair) are an example.

17. When a particle like an electron meets up with an Antimatter particle like a positron, the particles destroy each other.

18. When an electron collides with a positron the two particles disappear, or annihilate,[http://Sentencedict.com] to create a high-energy photon.

19. Positron is the Antiparticle of electron and is another kind of fermion having the same mass m e and spin s = 1/2 as electron and the charge +e opposite to the electron's

20. These particles are a promising source because they often decay into Antineutrons or hyperons and are themselves a relatively common product of electron-positron annihilations.

21. Antiparticle, subatomic particle having the same mass as one of the particles of ordinary matter but opposite electric charge and magnetic moment. Thus, the positron (positively charged electron) is the Antiparticle of the negatively charged electron.

22. You can read more about Positron by viewing the Positron Company Profile.

23. Antiparticles In the standard model for describing fundamental particles and interactions, every particle has an antiparticle. For example, the positron is the antiparticle of the electron

24. Can you produce a proton-Antiproton pair from a photon in a way analogous to electron-positron pair production? The answer to this is yes, it's definitely possible

25. Antiparticles In the standard model for describing fundamental particles and interactions, every particle has an Antiparticle. For example, the positron is the Antiparticle of the electron