Chapter 10 Modern Atomic Theory

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Presentation transcript:

Chapter 10 Modern Atomic Theory Notes

10.1: Rutherford’s Atom Review Rutherford’s atomic structure

10.1: Rutherford’s Atom Holes? What are the electrons doing?

10.2: Electromagnetic Radiation Energy being transmitted by light Wavelength Distance between two consecutive wave peaks

10.2: Electromagnetic Radiation Frequency How many wave peaks pass a certain point per given time period Speed How fast a given wave travels

10.2: Electromagnetic Radiation

10.2: Electromagnetic Radiation Dual Nature of Light Light has two characteristics Light as a wave Light as particles (photons)

10.2: Electromagnetic Radiation So which is it? Light or Wave?

10.3: Emission of Energy by Atoms Light and color

10.3: Emission of Energy by Atoms Elements and color

10.1: Rutherford’s Atom Review The atom is made up of a small, positive core called the nucleus and negative electrons that move around the nucleus. This nuclear model of the atom was introduced by Earnest Rutherford due to his famous gold foil experiment. The nucleus is made up of positive protons and neutral neutrons. The nucleus is very small compared to the size of the atom. The orbiting electrons account for most of the space taken up by the atom.

10.1: Rutherford’s Atom Holes? A major question left unanswered by Rutherford’s experiment was “What are the electrons doing?” How are they arranged? How do they move? Why don’t the electrons collapse into the nucleus?

10.2: Electromagnetic Radiation When you hold your hand close to a light bulb, it feels warm. Same with fire and sun. Electromagnetic Radiation Energy being transmitted by light How do different types of E.R. differ from one another?

10.2: Electromagnetic Radiation A wave is characterized by 3 properties: Wavelength, frequency and speed Wavelength Distance between two consecutive wave peaks Frequency How many wave peaks pass a certain point per given time period Speed How fast a given wave travels

10.2: Electromagnetic Radiation Microwaves High or low frequency? Long or short wavelength? How do they work? Gamma Rays Why so damaging?

10.2: Electromagnetic Radiation Dual Nature of Light Light has two characteristics Light as a wave Light as particles (photons-packets of light)

10.2: Electromagnetic Radiation So which is it? It’s both! Light has both wave and particle-like characteristics. In general, the longer the wavelength of light, the lower the energy of the light particles (photons).

10.3: Emission of Energy by Atoms When atoms experience an increase in energy, they absorb that energy and become “excited”. An increase in energy means a decrease in…STABILITY! So it cannot remain excited for long. When an atom falls back down from it’s excited state, it emits a photon of light, or energy packet. Human eyes associate this photon emission with some color.

10.3: Emission of Energy by Atoms Different atoms can carry different amounts of energy and have varying wavelengths. Therefore, atoms of different elements will carry different amounts of energy. When different elements are introduced to an increase in energy, they emit different colors of light. Lab on Monday!