This is basic 8th grade science but....
You put the protons in the middle and the neutrons in the middle with it and then put the electrons - valence electrons in the outside and the valence electrons on the outside line. Sorry if that is too confusing, doing my science project that's due tomorrow.
1) take an extension cord to a cloud
2) plug in the cloud
how do you draw anelectron cloud for chlorine
It is somewhat misleading to say that anything orbits the center of an atom. There is an electron cloud that surrounds the center of the atom, but the electrons do not actually orbit, they are just spread out in the form of a cloud.
The electron cloud that contains the electrons outside the nucleus takes up the most space of the atom.
Because it best fits the experimental data. From a layman's perspective (the layman being me, not necessarily you), the reasoning is thus: Heisenberg's Uncertainty Principle states that we cannot know both the position and the trajectory of a particle, because in the act of observing the particle we will have altered at least one of those qualities. What we can then deduce about the position of an electron (its 'orbit,' if you will) is not a precise set of values but a range of probabilities as to where that electron will be at a given point in time. That range, represented graphically, describes a fuzzy-edged set of possible locations, in the shape of a hollow sphere (thus "cloud"), at a distance from the atomic nucleus which is determined by the energetic state of that particular electron.
Electron moves around the atomic nucleus (not scattering); this is the Bohr atomic model.
I am guessing that you are talking about the two elements hydrogen and helium. If you want to draw a orbital model, first draw the nucleus. For hydrogen, make sure that there is one proton and however many neutrons you need. For helium, there must be two protons and at least two neutrons. Then, for hydrogen, you draw one electron in the first shell. For helium, you draw two. There are many other ways to symbolize the different elements, such as the electron cloud model, but that's extremely hard to draw.
1926
The electron is located in the electon cloud around the nuclues. some people may say a cloud but it is a electron cloud. hope this helps. Also You can add clouds to make a electron2 cloud
The electron is located in the electon cloud around the nuclues. some people may say a cloud but it is a electron cloud. hope this helps. Also You can add clouds to make a electron2 cloud
Not exactly. An electron is an actual physical particle with a negative charge. An electron cloud is (generally) a spherical area around the nucleus of an atom that predicts where the electrons might be located.
Today they us the theory that electrons move freely in different levels called electron shells. Which make up an electron cloud
The proton and the neutron make up the nucleus, as the electron orbits the nucleus in the electron cloud.
It is somewhat misleading to say that anything orbits the center of an atom. There is an electron cloud that surrounds the center of the atom, but the electrons do not actually orbit, they are just spread out in the form of a cloud.
Nucleus, which contains protons and neutrons Energy Shell/Electron Cloud, which contains electrons
the electron particles make up the mostr mass
The electron cloud that contains the electrons outside the nucleus takes up the most space of the atom.
I just read somewhere that Electron TV's are manufactured by Curtice. Check the model number, but make the brand "Curtis" and see if that works.
An atom model should include all of the major parts of an atom, consisting of: a nucleus containing protons and neutrons, and an electron cloud. A creative way to create this model would be to use different types of candy to represent protons, neutrons, and electrons. In order to suspend the electron cloud and show that it is not actually attached to the nucleus, you could use rings made from pipe cleaners to attach the electron candies to. Use invisible fishing line to suspend the nucleus in the center of the electron cloud.