Individually, no. However, they are predictable in a statistical sense. Yes, however, it would depend on such a wide array of variables that it would be practically impossible. These variables are things like starting positions and velocities.
Weak interactions are interactions between subatomic particles that are mediated by the weak nuclear force. The first such interaction discovered was Beta Decay in radioactivity, where a neutron decayed into a proton, an electron, and a neutrino. The weak force is mediated by the W+, W-, and Z intermediate vector bosons being transferred between quarks.
Everything is made of subatomic particles.
no, its an atom which is broken down into subatomic particles
Neutrons are neutrally charged subatomic particles.
The three most commonly referred to subatomic particles are the proton, the neutron, and the electron. Protons and neutrons are the subatomic particles that reside in the atomic nucleus. Electrons, however, are located outside of the nucleus.
yes
The word interaction is a noun. In addition. the definition of the word interactions is the act or process of interacting, or the state of undergoing interaction.
No.an electron is a subatomic particle (it acts like a true "point particle", occupying no volume)a compound is composed of two or more atoms of different elements, these atoms are held together by interactions between their outermost electrons (either electrostatic interactions or quantum mechanical interactions)
It's kind of a broad thing. Individual atoms and molecules and their interactions with each other is the domain of chemistry. Interactions between subatomic particles, electrons, neutrons, protons, and even smaller with quarks and the like, falls under quantum mechanics (or quantum physics, as it is better known).
They're never perfect, and which errors they produce is seldom predicable.
They're never perfect, and which errors they produce is seldom predicable.
The subatomic particles, I guess.The subatomic particles, I guess.The subatomic particles, I guess.The subatomic particles, I guess.
Weak interactions are interactions between subatomic particles that are mediated by the weak nuclear force. The first such interaction discovered was Beta Decay in radioactivity, where a neutron decayed into a proton, an electron, and a neutrino. The weak force is mediated by the W+, W-, and Z intermediate vector bosons being transferred between quarks.
The forces that are responsible are Horizontal Surface Currents. They can be unpredictable.
Molecules are not subatomic particles.
A colloid is not a subatomic particle.
Yes, the muon is a subatomic elementary particle. The subatomic label is not really needed; all elementary particles are subatomic.