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Streams of electrons and protons that shoot out from the sun and corona are the solar?
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Why do protons and electrons stay near each other?
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.
What holds atoms together-?
We've seen that an atom consists of a whole bunch of different kinds of particles. The next logical question (and we do want to be logical, don't we?) is: "What holds it all together?" What makes all this stuff an atom, rather than just a bunch of stuff flying past each other?Well, there are basically two things that hold it together. Two forces, that is. The first of these has to do with electric charge, something I mentioned on the previous page. Electric charge comes in two varieties: positive and negative. The main carriers of positive charge are protons, while the main carriers of negative charge are electrons. (Within protons and neutrons, the quarks themselves carry charge, but this is only important to us in that the net charge of a proton or neutron is equal to the sum of the charges of all its quarks: zero for a neutron, and a small positive amount for a proton.) Every proton carries exactly the same amount of positive charge, and every electron carries a negative charge exactly opposite that of a proton. There are other particles with electric charge, but they tend to live only a very short time before they decay, and so they're mostly unimportant for atoms.The significance of electric charge is that it forms the basis for electric force. Any particle with electric charge will exert a force on any other particle with charge. (And vice versa, of course.) And there are two rules describing the electric force.Opposite charges attract; like charges repel.The force gets weaker as the two charges get farther apart.That is, a proton and an electron will attract each other. The closer they are together, the stronger this attraction will be. Two protons (or two electrons) will repel each other. And again, the closer together they are, the stronger the repulsion. Now the nucleus of an atom is positively charged, while electrons are negatively charged. As a result, a nucleus will attract electrons. These electrons will swarm around the nucleus, and the result is an atom.Now we haven't explained everything yet. The electric force explains how the electrons are bound to the nucleus of an atom. But we haven't said anything about what holds the nucleus together. The electric force can't account for this, and in fact, the electric force actually works against holding the nucleus together.Remember, the nucleus contains neutrons and protons. The neutrons are electrically neutral, and so the electric force won't hold them in. Furthermore, the protons are all positively charged, and so they all repel each other. So if the electric force was the only force involved, you couldn't create a nucleus. You could try to push all those protons and neutrons together, but as soon as you let go, the protons would all shoot away from each other, and the neutrons would drift apart as well. There has to be some other force that holds protons and neutrons together.Of course, since the electric force is constantly trying to drive the protons apart, the force that holds them all in must be stronger than the electric force. And keep in mind, the electric force gets stronger as charged particles get closer together, and the protons in a nucleus are very close together. As a result, the force that holds protons and neutrons together must be very strong. Well, in a brilliant stroke of imagination, physicists have named this force "the strong force."The strong force is a force which attracts protons to protons, neutrons to neutrons, and protons and neutrons to each other. The force has a very short range, and this is the reason the nucleus of an atom turns out to be so small. In addition, the strong force is also responsible for binding the quarks and gluons into protons and neutrons.So the nucleus of an atom is held together by the strong force, while the electrons are held in the atom by the electric force.
Where does the plant get its energy from photosynthesis?
1 Light and water are absorbed 2 Water splits into hydrogen, oxygen, and electrons 3 The electrons get excited by the light energy and shoot up to the next level (the electron acceptor) 4 the electron comes back down and produces ATP 5 The electrons get excited again and shoot up to the electron acceptor 6 they come down and make NADPH 7 ATP and NADPH (making a sugar that is not yet glucose, but G3P) from the light reactions provide energy that are used to convert G3P to glucose and other materials
What do composite volcanoes shoot out?
they shoot out magma
What is an angle-shoot?
An angle-shoot is a botanical term for a side shoot which grows from the main stem.
What streams of electrons and protons that shoot out from the sun's corona amke up the solar?
wind
Streams of electrons and protons that shoot out from the sun's corona make up the solar?
Wind
What are streams of electrons and protons that shoot out from the suns corona?
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.
What monitors use a cathode tube shoot a beam of electrons to the screen?
CRT
The filaments at the back of the cathode tube shoot a beam of electrons to the screen at the front of the tube?
CRT is the answer..
If you shoot very high energy electrons at a metal target can you make x-rays?
Yes
If you shoot very high energy electrons at a metal target can you can make X-rays?
Yes, this is a very common method.
What is called prominences?
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.
What change the protons?
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.
Many monitors use what kind of technology in which the filaments at the back of the cathode tube shoot a beam of electrons to the screen at the front of the tube?
crt
What are the red streams and loops of gases that shoot out from the sun?
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
Why do protons and electrons stay near each other?
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.
