Streams of protons and electrons emitted from the Sun produce a solar wind. This is a source of energy has been shown in science fiction as a method to power interstellar travel, using solar sails.
Streams of protons and electrons emitted from the sun produce solar wind. These streams originate in the corona and shoot out at high speeds.
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The idea is that if you add a proton to an atom when working with the periodic table then it changes the atomic number of the atom. However, if you are talking about actually changing the number of protons within an atom; there are proton accelerators that shoot protons at an atom to make it a highly charged particle that is very unstable. As far as decreasing number of protons, I do not believe there is a way to do so; however I may be wrong about that portion.
The strong nuclear force (or "strong interaction") binds the subatomic particles in the nucleus together (protons and neutrons) while the electromagnetic force attracts negatively charged electrons to the positively charged nucleus.
No, it is not okay to shoot up with rubbing alcohol and Klonopin (not kolonopins). The combination of these two items could actually kill you if you shoot up with them.
There is a lot of evidence that backs this up, and is the reason that scientists needed to invent quantum physics to describe small molecules. Atomic spectroscopy is probably the most convincing. When we shoot energy at atoms, only certain very specific energies are released. In addition, molecules will only interact with very certain specific energies of electromagnetic radiation. These tow things lead us to believe that electrons only have specific levels of energy. In addition, there is a minimum energy that electrons can take, called the Zero Point Energy, below which electrons cannot go. It makes sense that there would be this minimum energy. Since electrons have a charge, they radiate energy as they orbit the charged nucleus of the atom. Eventually, the electron should radiate so much that it looses all its energy and fall into the nucleus. This would make matter very unstable. But because electrons only take on certain values, this doesn't happen!
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CRT
Yes
CRT is the answer..
Yes, this is a very common method.
Prominences are ribbons of gas on the sun, similar to solar flares, that shoot upwards millions of miles into space. They are usually shaped like a loop. They are attached to the sun's photosphere, and extend into the corona.
The idea is that if you add a proton to an atom when working with the periodic table then it changes the atomic number of the atom. However, if you are talking about actually changing the number of protons within an atom; there are proton accelerators that shoot protons at an atom to make it a highly charged particle that is very unstable. As far as decreasing number of protons, I do not believe there is a way to do so; however I may be wrong about that portion.
crt
rominences A) Streams of glowing gas that shoot out from the sun in an arch Solar flares B) Brief eruptions of intense high-energy radiation from the sun's surface Sunspots C) Dark spots appearing from time to time on the sun's surface Convection D) The rise of hotter, less dense fluid and the sinking of cooler, denser fluid can you match them up? i need help
Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.Protons repel each other electrically. However, there is another force that counteracts that: the strong force (or "residual strong force") that acts between nucleons (protons and neutrons). Note that two protons alone can't stick together; but if there are also a few neutrons, the strong force becomes dominant.