1. Chapter 11
Modern Atomic Theory

2. Section 1
Atoms & Energy

3. Recall…
Members of the same group of atoms show great similarities to each other
And that the difference between groups is striking

4. Rutherford’s Atom
An atom has a small positive core (called a nucleus) with negatively charged electrons moving around the nucleus in some way.
This concept of the nuclear atom resulted from Ernest Rutherford’s experiments in which he bombarded metal foil with α particles.

5. Major questions left unanswered by Rutherford’s work was “what are the electrons doing?”
Rutherford couldn’t explain why the negative electrons aren’t attracted into the positive nucleus, causing the atom to collapse.

6. Energy & Light Can you think of a few examples of light?
Can you think of a few examples of energy being transmitted?

7. Electromagnetic Radiation
Radiant energy that exhibits wavelike behavior and travels through space at the speed of light in a vacuum.

9. Light travels as a wave
A particular wave is characterized by 3 properties: wavelength, frequency, & speed
The wavelength (λ) is the distance between 2 consecutive wave peaks
Frequency (ν) indicates how many eave peaks pass a certain point per a given time period

11. Another way to think of a beam of light traveling through space, is as a stream of time packets of energy called photons.

12. Different wavelengths of electromagnetic radiation carry different amounts of energy
In general the longer wavelength of light, the lower the energy of its photons

13. Emission of Energy by Atoms

14. The colors of these flames result from atoms in theses solutions releasing energy by emitting visible light of specific wavelengths (that is specific colors)

15. The heat from the flame causes the atoms to absorb energy
When this happen we say that the atoms are moved to an excited state
An atom cannot stay in the excited state forever though, when the atom drops back down to a lower state some of the excess energy is then released in the form of light.
It emits a photon of light