30.3 Bohr’s theory of the hydrogen atom (Page 5/14)

College physics Page 5 / 14

E_{n} = \frac{1}{2} m_{e} v^{2} - k \frac{{Zq}_{e}^{2}}{r_{n}} .

Now we substitute $r_{n}$ and $v$ from earlier equations into the above expression for energy. Algebraic manipulation yields

E_{n} = - \frac{Z^{2}}{n^{2}} E_{0} (n = 1, 2, 3, ...)

for the orbital energies of hydrogen-like atoms . Here, $E_{0}$ is the ground-state energy $(n = 1)$ for hydrogen $(Z = 1)$ and is given by

E_{0} = \frac{{2 π}^{2} q_{e}^{4} m_{e} k^{2}}{h^{2}} = 13.6 eV.

Thus, for hydrogen,

E_{n} = - \frac{13.6 eV}{n^{2}} (n = 1, 2, 3, ...).

[link] shows an energy-level diagram for hydrogen that also illustrates how the various spectral series for hydrogen are related to transitions between energy levels.

An energy level diagram is shown. At the left, there is a vertical arrow showing the energy levels increasing from bottom to top. At the bottom, there is a horizontal line showing the energy levels of Lyman series, n is one. The energy is marked as negative thirteen point six electron volt. Then, in the upper half of the figure, another horizontal line showing Balmer series is shown when the value of n is two. The energy level is labeled as negative three point four zero electron volt. Above it there is another horizontal line showing Paschen series. The energy level is marked as negative one point five one electron volt. Above this line, some more lines are shown in a small area to show energy levels of other values of n. — Energy-level diagram for hydrogen showing the Lyman, Balmer, and Paschen series of transitions. The orbital energies are calculated using the above equation, first derived by Bohr.

Electron total energies are negative, since the electron is bound to the nucleus, analogous to being in a hole without enough kinetic energy to escape. As $n$ approaches infinity, the total energy becomes zero. This corresponds to a free electron with no kinetic energy, since $r_{n}$ gets very large for large $n$ , and the electric potential energy thus becomes zero. Thus, 13.6 eV is needed to ionize hydrogen (to go from –13.6 eV to 0, or unbound), an experimentally verified number. Given more energy, the electron becomes unbound with some kinetic energy. For example, giving 15.0 eV to an electron in the ground state of hydrogen strips it from the atom and leaves it with 1.4 eV of kinetic energy.

Finally, let us consider the energy of a photon emitted in a downward transition, given by the equation to be

Δ E = hf = E_{i} - E_{f} .

Substituting $E_{n} = (- 13.6 eV / n^{2})$ , we see that

hf = (13.6 eV) (\frac{1}{n_{f}^{2}} - \frac{1}{n_{i}^{2}}) .

Dividing both sides of this equation by $hc$ gives an expression for $1 / λ$ :

\frac{hf}{hc} = \frac{f}{c} = \frac{1}{λ} = \frac{(13.6 eV)}{hc} (\frac{1}{n_{f}^{2}} - \frac{1}{n_{i}^{2}}) .

It can be shown that

(\frac{13.6 eV}{hc}) = \frac{(13.6 eV) (1.602 \times 10^{−19} J/eV)}{(6.626 \times 10^{−34} J·s) (2.998 \times 10^{8} m/s)} = 1.097 \times 10^{7} m^{–1} = R

is the Rydberg constant . Thus, we have used Bohr’s assumptions to derive the formula first proposed by Balmer years earlier as a recipe to fit experimental data.

\frac{1}{λ} = R (\frac{1}{n_{f}^{2}} - \frac{1}{n_{i}^{2}})

We see that Bohr’s theory of the hydrogen atom answers the question as to why this previously known formula describes the hydrogen spectrum. It is because the energy levels are proportional to $1 / n^{2}$ , where $n$ is a non-negative integer. A downward transition releases energy, and so $n_{i}$ must be greater than $n_{f}$ . The various series are those where the transitions end on a certain level. For the Lyman series, $n_{f} = 1$ — that is, all the transitions end in the ground state (see also [link] ). For the Balmer series, $n_{f} = 2$ , or all the transitions end in the first excited state; and so on. What was once a recipe is now based in physics, and something new is emerging—angular momentum is quantized.

Triumphs and limits of the bohr theory

Bohr did what no one had been able to do before. Not only did he explain the spectrum of hydrogen, he correctly calculated the size of the atom from basic physics. Some of his ideas are broadly applicable. Electron orbital energies are quantized in all atoms and molecules. Angular momentum is quantized. The electrons do not spiral into the nucleus, as expected classically (accelerated charges radiate, so that the electron orbits classically would decay quickly, and the electrons would sit on the nucleus—matter would collapse). These are major triumphs.

Questions & Answers

how to study physic and understand

Ewa Reply

what is conservative force with examples

Moses

what is work

Fredrick Reply

the transfer of energy by a force that causes an object to be displaced; the product of the component of the force in the direction of the displacement and the magnitude of the displacement

AI-Robot

why is it from light to gravity

Esther Reply

difference between model and theory

Esther

Is the ship moving at a constant velocity?

Kamogelo Reply

The full note of modern physics

aluet Reply

introduction to applications of nuclear physics

aluet Reply

the explanation is not in full details

Moses Reply

I need more explanation or all about kinematics

Moses

yes

zephaniah

I need more explanation or all about nuclear physics

aluet

Show that the equal masses particles emarge from collision at right angle by making explicit used of fact that momentum is a vector quantity

Muhammad Reply

Isaac

A wave is described by the function D(x,t)=(1.6cm) sin[(1.2cm^-1(x+6.8cm/st] what are:a.Amplitude b. wavelength c. wave number d. frequency e. period f. velocity of speed.

Majok Reply

what is frontier of physics

Somto Reply

A body is projected upward at an angle 45° 18minutes with the horizontal with an initial speed of 40km per second. In hoe many seconds will the body reach the ground then how far from the point of projection will it strike. At what angle will the horizontal will strike

Gufraan Reply

Suppose hydrogen and oxygen are diffusing through air. A small amount of each is released simultaneously. How much time passes before the hydrogen is 1.00 s ahead of the oxygen? Such differences in arrival times are used as an analytical tool in gas chromatography.

Ezekiel Reply

please explain

Samuel

what's the definition of physics

Mobolaji Reply

what is physics

Nangun Reply

the science concerned with describing the interactions of energy, matter, space, and time; it is especially interested in what fundamental mechanisms underlie every phenomenon

AI-Robot

what is isotopes

Nangun Reply

nuclei having the same Z and different N s

AI-Robot

<< Chapter < Page Page > Chapter >>

Practice Key Terms 7

Read also:

Get Jobilize Job Search Mobile App in your pocket Now!

100% Free Mobile Applications
Receive real-time job alerts and never miss the right job again

Source: OpenStax, College physics. OpenStax CNX. Jul 27, 2015 Download for free at http://legacy.cnx.org/content/col11406/1.9

Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'College physics' conversation and receive update notifications?

Ask

	4 Section summary By OpenStax Read Online Course
	2 Bohr’s solution for hydrogen By OpenStax Read Online Course
	NCE Ch 08 Appraisal By Anh Dao Start Quiz
	Nutrition Exam By Hannah Sheth Start Quiz
	Anatomy & Physiology By OpenStax Read Online Course
	12 AP 12 Nervous System Essay By OpenStax Start Flashcards
	English Proficiency Test By Anindyo Mukhopadhyay Start Quiz
	Financial Intelligence Quiz By Yasser Ibrahim Start Quiz
	Biology Final By Anonymous User Start Quiz
	Unit 1 Geography Test By Qqq Qqq Start Flashcards
©flickr:	Microbiology Final By Szilárd Jankó Start Quiz
	7 Arts Society: Theater 7 By Jonathan Long Start Quiz