Protons and neutrons are found in the (a, surrounded by nearly empty space where (b) are located. (c) and (d) are the subatomic particles having masses that are similar where the third has a mass that is significantly (e). In the organization of an atom, the subatomic particle NOT located in the nucleus is the (f). This particle can be found located at different distances from the nucleus. These allowed distance are called (g). The energy of this particle also changes as it is further from the nucleus, When closest to the nucleus, it has energy that is (h) and it gets (i) as it moves further from the nucleus. The vocabulary term used to describe these discrete bundles of energy that are "allowed" is (). This organizational level was identified by Bohr as he studied line emission spectra of a single element, (k). An electron having no excess energy is said to be at () state but becomes (m) when energy is absorbed. An electron having excess energy is able to jump to a/an (n). Here, it is unstable and will immediately (o), releasing the (p). it had absorbed as a (Q) of light. If we can see this color with our eyes, the (r) of the light must be within the visible spectrum. II electrons were located at ANY distance from the nucleus, with any amount of energy we would not see an (s) spectrum with (0 lines but rather, a (u) of colors, representing the energies of the (v) electrons falling back to (w) state. Scientists came up with a more refined model based on the premise that electrons behave as both a (x) and (y). It is a mathematical model using the term (z) to describe the 3-D space where the electrons exist but (unlike the carlier model) does not specify its (aa). For cach electron, a unique set of (bb) numbers exist. Although this unique set of "numbers" has technically defined notations, we can describe them qualitatively, using vocabulary terms learned this semester. If the first is "principle energy level", the other three are (cc), (dd), and (ce).

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Provide the appropriate word or words to make the following paragraphs.correct and.complete. Protons and neutrons are found in the (a), surrounded by nearly empty space where (b) are located. (c) and (d) are the subatomic particles having masses that are similar where the third has a mass that is significantly (e). In the organization of an atom, the subatomic particle NOT located in the nucleus is the (f). This particle can be found located at different distances from the nucleus. These allowed distance are called (g). The energy of this particle also changes as it is further from the nucleus. When closest to the nucleus, it has energy that is (h) and it gets (i) as it moves further from the nucleus. The vocabulary term used to describe these discrete bundles of energy that are "allowed" is (). This organizational level was identified by Bohr as he studied line emission spectra of a single element, (k). An electron having no excess energy is said to be at (1) state but becomes (m) when energy is absorbed. An electron having excess energy is able to jump to a/an (n). Here, it is unstable and will immediately (o), releasing the (p) it had absorbed as a (Q) of light. If we can see this color with our eves, the (r) of the light must be within the visible spectrum. II electrons were located at ANY distance from the nucleus, with any amount of energy we would not see an (s) spectrum with () lines but rather, a (u) of colors, representing the energies of tthe (v) electrons falling back to (w state. Scientists came up with a more refined model based on the premise that electrons behave as both a (x) and (y). It is a mathematical model using the term (z) to describe the 3-D space where the electrons exist but (unlike the earlier model) does not specify its (aa). For each electron, a unique set of (bb) numbers exist. Although this unique set of "numbers" has technically defined notations, we can describe them qualitatively, using vocabulary terms learned this semester. If the first is "principle energy level", the other three are (cc), (dd), and (ce).