Nucleosynthesis and the origin of the chemical elements

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Presentation transcript:

Nucleosynthesis and the origin of the chemical elements In the beginning…. The Big Bang “quark soup” nuclei of H and He (all in ~13.8 s) Today’s topic: Nucleosynthesis and the origin of the chemical elements

The origin of the chemical elements Nucleosynthesis — The origin of the chemical elements Proton-proton chain or Hydrogen “burning” CNO cycle

Standard notation 4 He 2

Mass number 4 He Element symbol 2 Atomic number

He 4 2 Mass number (# of protons and neutrons) Atomic number

Atomic weight is the sum of the masses of all natural isotopes of that element weighted based on their abundance The atomic weight you see on the periodic table

O 16 8 Mass number (# of protons and neutrons) The most common isotope of oxygen is oxygen-16 16 8 Atomic number (# of protons)

O 18 8 Isotopes have a Mass number different number of neutrons so their mass number will be different, but the atomic number of an element is always the same Mass number (# of protons and neutrons) 18 8 Atomic number (# of protons)

The origin of the chemical elements Nucleosynthesis — The origin of the chemical elements Proton-proton chain or Hydrogen “burning” CNO cycle

The triple-alpha process Helium burning — The triple-alpha process Key to synthesis of all elements beyond He Nuclei of higher atomic number than C are produced by fusing alpha particles (He) …but the heaviest atom produced this way is Nickel-56

Neutron capture This process is responsible for elements with atomic number > 26 (Fe)

(electron) or (positron) b _ + b (electron) or (positron) b S-process (Neutron-capture) Beta decay

Stars’ nuclear fires Diameter of the star expands while the core contracts leading to “giant” stars

Blue giants Red giants Hydrogen burning White dwarfs Red dwarfs Betelgeuse and Rigel Red giants The Sun in 5 Ga Hydrogen burning White dwarfs Red dwarfs most common

When a mid- to heavy-weight star dies, a supernova explosion ejects Blue giants Betelgeuse and Rigel When a mid- to heavy-weight star dies, a supernova explosion ejects the outer layers of the star (and the elements therein) into the universe creating the raw material for planets Red giants The Sun in 5 Ga Hydrogen burning White dwarfs Planets form by gravitational collapse and/or accretion Red dwarfs most common

Abundances of elements in the solar system • H and He most abundant (90-95% H, 5-10% He) • Abundances of first 50 elements decreases exponentially • Even atomic numbers are more abundant

Most abundant

The abundance of the elements is related to their nuclear properties Mass number # protons # neutrons The most “even” isotopes are more abundant The abundance of the elements is related to their nuclear properties rather than their chemical properties…

Abundances of elements in the solar system • Elements with Z ≥ 83 have no stable isotopes but occur naturally because they are daughters of long-lived radio-isotopes of U and Th

No stable isotopes

1s 2s, 2p 3s, 3p 4s, 3d, 4p 5s, 4d, 5p 6s, 4f, 5d, 6p 7s, 5f, 6d, 7p etc…. Periods are numbered based on the first quantum number of the orbitals that are being filled with increasing atomic number

Electron clouds or orbitals

1s 2s, 2p 3s, 3p 4s, 3d, 4p 5s, 4d, 5p 6s, 4f, 5d, 6p 7s, 5f, 6d, 7p