18) Infrared (λ>700.nm), Red = 700.nm, Violet = 400.nm, Ultraviolet (λ<400.nm) |
18) Infrared (λ>750.nm), Red = 750.nm, Violet = 400.nm, Ultraviolet (λ<400.nm) |
19a) Each element has a unique Bright Line Spectra that indicates that element. |
19a) Charge Cloud modelEach element has a unique |
19b) Atom ABSORBING a discrete energy packet size in order that an electron can use that energy to be promoted to a higher energy level. Electron instantaneous falls back down to the original lower energy level and atom EMITS that discrete energy packet size. |
19b) It's exact location/pathway 19c) Orbital is the 3-D region of space outside the nucleus where you "find" (highest probability of finding) an electron with that given amount of energy. All orbitals "add up" to Bohr's energy levels. 19d) s, p, d, f (actually at slightly different energies from each other in the energy level. s orbitals have lowest energy to f orbitals having the highest. |