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An electrically neutral carbon atom has the same number of electrons as it does protons: 6, which is equal to its atomic number.
four. each electron can join with an electron from another atom to form a strong cavalent bond
tetrahedral
An atom can be imaged using an electron beam, since the wavelength of the electron beam is smaller than the atom. This is also the reason it can't be seen using a powerful microscope: the wavelength of light is larger than an atom.
Not unless your highschool has an electron microscope
A electron microscope uses beams of highly charged, energetic, electrons, due to these electrons this type of microscope can magnify the object it is looking at by two thousand times! So because we can magnify an object by such a great amount we can use electron microscopes to observe how atoms are arranged in an object and even look at the structure of an atom.
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Scanning tunneling electron microscope
with an electron microscope
ATOM PROBE is the instrument used to examine atom
No device can give the complete structure of an atom but you can get a minute idea about the look of an atom using an Electron Microscope!
one gram of carbon* Avogdo's number =number of atom (many atom) one atom of carbon mean carbon have a 6 electron and 12 molar mass
Four. Each electron can join with an electron from another atom to form a strong covalent bond.
An electrically neutral carbon atom has the same number of electrons as it does protons: 6, which is equal to its atomic number.
A single atom is not visible in a microscope (it is too small to be imaged by photons). What you see in an optical microscope (or in general) is the light reflected, scattered, or emitted by the electron layers of the material under observation.
A single atom is not visible in a microscope (it is too small to be imaged by photons). What you see in an optical microscope (or in general) is the light reflected, scattered, or emitted by the electron layers of the material under observation.