Comparing Electronic Transitions & Exploring the Bohr Model
For these questions, consider only the lowest six energy levels of a hydrogen atom:
E1= −2.18 x 10−18J
E2= −5.45 x 10−19J
E3= −2.42 x 10−19J
E4= −1.36 x 10−19J
E5= −8.72 x 10−20J
E6= −6.06 x 10−20J
1.Convert the above energy levels into comparable values. (Hint: So they all have the same power of 10)
2.Sketch the energy levels.
Comparing Electronic Transitions & Exploring the Bohr Model For these questions, consider only the lowest six...
state the equation that you use Semiconductor Germanium has a density of 5323 a. cm- and atomic mass of 72.63u. If we assume that Germanium can contribute 1 conducting electron per atom, calculate the maximum number of conducting electrons in a silicon sample of 2cm X 10cm X 10cm. E1, frd = eftew+1E2, ~êr = ()**; Superconductor E3, M05T, = constant; E4, E,0) = 3.54k87c; E5, E,(T) = 1.74E,(0)(1-3)*; E6, critical magnetic field B.(T) = B_(0)(1-). Order of energy of...