Color in the traditional sense doesn't make much sense; an electron or a positron (anti-electron) is much, much smaller than the wavelength of light, so it would not influence it. "Color charge" on the other hand is unrelated to our traditional definition of color - it is more like a whimsical name. (It's actually a characteristic assigned to things in the quantum mechanical universe.) If you mean what is called "color charge" as in quarks, it does not apply. Electrons and positrons are fundamental particles, and they have no color charge.
A POSITron has a POSITive charge, hence the name. A positron is an anti-electron; since the electron has a negative charge, the positron has a positive charge.A POSITron has a POSITive charge, hence the name. A positron is an anti-electron; since the electron has a negative charge, the positron has a positive charge.A POSITron has a POSITive charge, hence the name. A positron is an anti-electron; since the electron has a negative charge, the positron has a positive charge.A POSITron has a POSITive charge, hence the name. A positron is an anti-electron; since the electron has a negative charge, the positron has a positive charge.
Since the positron is the antiparticle of the electron, it follows that the electron is the antiparticle of the positron.
A positron has a positive charge, and a neutrino has a neutral charge.
A positron is the antiparticle of an electron; in other words, it is an alternate name for the "anti-electron". Therefore, a positron would anihilate with an electron. I am not sure about the "why".
Arsenic 74 can be used as a positron emitter in PET - Positron Emission Tomography, the scope is to identify tumors.
A POSITron has a POSITive charge, hence the name. A positron is an anti-electron; since the electron has a negative charge, the positron has a positive charge.A POSITron has a POSITive charge, hence the name. A positron is an anti-electron; since the electron has a negative charge, the positron has a positive charge.A POSITron has a POSITive charge, hence the name. A positron is an anti-electron; since the electron has a negative charge, the positron has a positive charge.A POSITron has a POSITive charge, hence the name. A positron is an anti-electron; since the electron has a negative charge, the positron has a positive charge.
positron
No. The antiparticle for the proton is called antiproton. The antiparticle for the electron is called antielectron, also known as positron.
loss of a positron. 0:+1B
Since the positron is the antiparticle of the electron, it follows that the electron is the antiparticle of the positron.
No, a positron cannot react with a neutron in any kind of annihilation reaction. An electron and a positron can, and the same with a neutron and an anti-neutron, but it does not occur between a positron and a neutron.
Positron - video game - happened in 1983.
Positron - video game - was created in 1983.
Both positron and electron are point particles and therefore have zero physical size.
A positron has a positive charge, and a neutrino has a neutral charge.
A positron is an electron's antiparticle. It has the same mass as an electron, but an opposite electrical charge.
PET or positron emission tomography