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Atoms, Elements, and Compounds

Atoms, Elements, and Compounds. Chapter Thirteen: The Atom. 13.1 Fundamental Particles and Forces 13.2 Electrons in the Atom. Investigation 13B. Building the Elements. How were the elements created?. 13.2 Electrons in the atom.

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Atoms, Elements, and Compounds

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  1. Atoms, Elements, and Compounds

  2. Chapter Thirteen: The Atom • 13.1 Fundamental Particles and Forces • 13.2 Electrons in the Atom

  3. Investigation 13B Building the Elements • How were the elements created?

  4. 13.2 Electrons in the atom • Each different element has its own characteristic pattern of colors called a spectrum. • The colors of clothes, paint, and everything else around you come from this property of elements to emit or absorb light of only certain colors.

  5. 13.2 Electrons in atoms • Each individual color in a spectrum is called a spectral linebecause each color appears as a line in a spectroscope. • A spectroscope is a device that spreads light into its different colors.

  6. 13.2 Bohr model of the atom • Danish physicist Neils Bohr proposed the concept of energy levels to explain the spectrum of hydrogen. • When an electron moves from a higher energy level to a lower one, the atom gives up the energy difference between the two levels. • The energy comes out as different colors of light.

  7. 13.2 The quantum theory • Quantum theorysays that when things get very small, like the size of an atom, matter and energy do not obey Newton’s laws or other laws of classical physics.

  8. 13.2 The quantum theory • According to quantum theory, particles the size of electrons are fundamentally different • An electron appears in a wave-like “cloud and has no definite position.

  9. 13.2 The quantum theory • The work of German physicist Werner Heisenberg (1901–1976) led to Heisenberg’s uncertainty principle. • The uncertainty principle explains why a particle’s position, momentum or energy can never be precisely determined. • The uncertainty principle exists because measuring any variable disturbs the others in an unpredictable way.

  10. 13.2 The uncertainty principle

  11. 13.2 Electrons and energy levels • In the current model of the atom, we think of the electrons in an atom as moving around the nucleus in an area called an electron cloud. • The energy levels occur because electrons in the cloud are at different average distances from the nucleus.

  12. 13.2 Electrons and energy levels • The first energy level can accept up to two electrons. • The second energy levels hold up to eight electrons.

  13. Technology Connection Aim for the Stars: Dr. Shirley Ann Jackson • Dr. Shirley Ann Jackson is a well-known scientist. • She has studied atoms and the particles inside atoms for several decades.

  14. Activity Half-Life • Radioactivity is how we describe any process where the nucleus of an atom emits particles or energy. • All radioactive elements have a half-life. • This means that there is a certain length of time after which half of the radioactive element has decayed.

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