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What else can I help you with?
How many neutrons are in an atom of vanadium?
Maing a nuclear bomb, are you? Reask your question after consulting a periodic table.
What are atoms are made up of?
Atoms are made out of Electrons, which are made out of ting electrical particles (positive and negative). The particles balance themselves and make up an atom. (1 positive+1 negative=neutral atom) When the particles get neutral, they form an atom. The lightest atom (1 negative and 1 positive) is hydrogen. Oxygen is made out of 8 negative and 8 positive. It is impossible to tell what these tiny particles are made out of. When you separate the positives and negatives, they look for there mates and cause a gigantic explosion, which is the atomic bomb.
If the 6 proton and 6 neutron of carbon mixed into 12 proton and 12 neutron of magnesium then what the result?
If the atoms fused to produce an atom with 18 protons and 18 neutrons you could get an isotope of Argon. Incidentally the Argon isotope with 18 protons and 18 neutrons happens to be a stable isotope, although not the most common one. You would only get fusion under extreme conditions of course - such as during the detonation of a fusion bomb/warhead (and even then I'm not sure you could get the carbon and magnesium to fuse) or in a star (far more likely) or nova or supernova. If you simply mixed carbon and magnesium and got them to react you could get Magnesium Carbide (Mg2C).
Where did the atomic bomb get its power?
The atomic bomb gets its power from the process of nuclear fission, where the nucleus of an atom is split into two or more smaller nuclei, releasing a large amount of energy. This energy is what causes the destructive force of an atomic bomb.
How a nuclear bomb works?
Well, the technical explanation is very complicated, so I will make it more simple: there are the fission bomb, and the thermonuclear bomb. The fission bomb makes an explosion through the splitting of atom. Atom is the smallest measurement. There are neutrons and photons in a atom. But when you split the atom to make a big explosion, you do not use any atom. We usually use an atom of uranium-235. When the uranium atom is split, the normal amount of neutrons or photons does not come out. Then the neutrons release lots of energy! (Very simple explanation: A fission bomb is a bomb that uses energy from splitting uncontrolled atoms. And a thermonuclear bomb is just opposite to fission bomb, it gets energy from fusion of atoms to make a heavier one.
What is a sentence uses atom?
Atom is used to create an atomic bomb. Atom has three parts.
What nicknames does Atom Bomb go by?
Atom Bomb goes by Adam Bomb.
How tall is Atom Bomb?
Atom Bomb is 5' 11".
Is a atom bomb more powerful than a h-bomb?
No the atom bomb is not more powerful then the H-bomb
Who found formula for atom bomb and E equals mc2?
Albert Einstein created it.
Do neutrons have the same number of protons in an atom?
No. There are several very common cases in which the number of neutrons differs from the number of protons. For early elements (the lighter ones), the proton to neutron ratio is generally 1 to 1. For example, the common hydrogen atom always has 1 proton, and usually 1 neutron. Larger elements, such as uranium, have a larger ratio. If you have ever seen, uranium is often referred to as uranium 238, the key particle in the atomic bomb. Uranium has 92 protons, meaning the difference in mass is accounted for by 146 neutrons. So the neutron to proton ratio in this case is about 1.6. The reason that the ratio differs along the periodic table can be explained by two forces. The first is electromagnetism. You are probably familiar with this. Life particles (such as 2 protons) repel while opposite particle (such as proton and electron) attract. But remember that electrons orbit around the nucleus of an atom. The nucleus itself consists of protons and neutrons. Neutrons don't seem to matter as they are electrically neutral, but how are protons able to sit by each other so tightly packed if a powerful repulsive force exists between them? The answer to that lies in a different force that is strong enough to overcome their repulsiveness at extremely close distances. This force is actually simply called the strong force or sometimes, the strong nuclear force. This force is an attraction between protons and protons, neutrons and neutrons, and even protons and neutrons! I'm not sure how well this force is understood, but we certainly know it's there. Otherwise, it would be impossible for the elements of the periodic table to even exist due to the electromagnetic repulsion of like particles! Now as we get to bigger and bigger elements along the periodic table, there are more protons packed together in a tightly spaced nucleus of a given element. This means that the electromagnetic repulsive force is dramatically increasing simply because there are more particles to repel each other. More neutrons, then, are needed to maintain a form of equilibrium, something strong enough to bind the nucleus in place. Therefore, the ratio increases. One last note: I stated that the early elements held a one to one proton to neutron ratio in general, leaving the implication that it does not necessarily have to be one to one. This would be correct if you thought that. The hydrogen atom actually has two other known isotopes (different number of neutrons then usual). Hydrogen can have one proton and two neutrons. This compound is known as deuterium, and is part of the cause for "hard water". However, deuterium is a more unstable form and does not exist as much. Hydrogen can also exist with three neutrons, and this particle is known as tritium. It is highly radioactive due to the substantial instability that it holds. A particle of such small size is not "designed" to hold onto so many neutrons because it doesn't really need more than 1 to account for the one proton. Because of such a high instability, tritium very rarely exists at all. Hope this helped! :)
What sort of explosives made an atom bomb?
Atom Bomb = Uranium H-Bomb = Hydrogen
