For beta- decay, the resulting particles are an electron and an antineutrino. However, it is incorrect to say that these particles create the beta particle. It is more correct to say that the weak interaction causes a down quark in a neutron to change to an up quark, releasing a W- boson. The neutron becomes a proton, and the W- boson decays into the electron and the antineutrino.
For beta+ decay, the resulting particles are a positron and a neutrino. It is a similar, though not quite the same reaction. Energy is absorbed, either from an energy rich nucleus, from electron capture, or from internal conversion, converting an up quark in a proton into a down quark, releasing the positron and neutrino, and changing the proton into a neutron.
Negative electric charge is a fundamental property of subatomic particles such as electrons, which carry a charge of -1. This charge leads to the attraction between negatively charged particles and positively charged particles. When negative charges accumulate, they create an electric field that can exert a force on other charges in the vicinity.
One can create negative ions by using devices like ionizers or air purifiers, which release negatively charged particles into the air. These negative ions can help improve air quality and potentially have positive effects on health and well-being.
Yes, particles in smoke can mix with the air and other pollutants to form smog. Smog is typically a combination of smoke particles, vehicle emissions, and other pollutants that react in the atmosphere to create a haze. This can have negative effects on air quality and human health.
Negatively charged particles have an excess of electrons, which gives them a negative charge. They are attracted to positively charged particles and repel other negatively charged particles. They can create electric fields and participate in chemical reactions.
Radioactive particles can create ions through the process of ionization, where the high energy emitted by the particles can knock electrons out of atoms, leaving the atoms with a positive charge (cation) and the freed electrons with a negative charge (anion). This ionization process can occur when radioactive particles interact with atoms in a material, leading to the formation of ions in the surrounding medium.
The property is called charge, which is a fundamental property of matter that can be positive or negative. Charged particles create electric fields that exert forces on other charged particles, while moving charged particles create magnetic fields that can also exert forces on other charged particles. The interaction between electric and magnetic fields is known as electromagnetism.
An electron has a negative charge of -1.6 x 10^-19 coulombs.
This is a trick question, because the word electricity, comes from the word electron. An electron is the negative charge of an atom. This same charge is electricity, that is, everything that we know to be electricity, is this negative charge. So your answer is, electricity.
Electrons are negative because they have a fundamental property called charge, which is a fundamental property of matter. Electrons have a negative charge, while protons have a positive charge. This charge difference is what allows electrons to interact with other particles and create the electrical forces that govern many aspects of the physical world.
Particles create distortion by interacting with the medium they are traveling through. As particles move, they create pressure waves that cause the medium to compress and expand, resulting in distortion. This distortion can affect the properties of the medium, such as density, temperature, and pressure.
What are solute particles
Charged particles that move in liquids to create electric current are called ions.