At the beginning. Matter + antimatter. Matter has the advantage. baryons quarks, leptons, electrons, photons (no protons or neutrons)

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Transcription:

At the beginning Matter + antimatter Matter has the advantage baryons quarks, leptons, electrons, photons (no protons or neutrons) Hadrons protons, neutrons Hydrogen, helium (:0 H:He)

Origin of the Universe Hubble observed the universe seemed to be expanding from a central point origin of the Big Bang Theory Formation of subatomic particles H and He nuclei, then cooling to form mostly H and He still the most abundant elements in the universe

Nuclear reactions the beginning Hydrogen fusion: 2 6 C H 3 7 N 2 3 2 H H He H H 3 2 He 2 3 2 H.02MeV He 4 2 He H 5.493MeV Proton-proton chain H 0.422MeV 2.859MeV 3 7 3 6 4 7 5 8 5 7 N C N O N H 3 6 H 5 7 H C N 4 7 5 8 2 6 N O C CNO cycle 4 2 He 4 2 8 4 He Be 4 2 4 2 He He 8 4 2 6 Triple-alpha fusion Be C Particles: - 4 2He proton, aka positron (+) - high energy photon neutrino

Nuclear reactions Helium Burning Only goes to 56 26Fe 2 6 6 8 C O 4 2 4 2 He He 6 8 20 0 O Ne What about the rest of the elements?? after before

Neutron-capture Reactions At the end of a red star s life: 62 28 Ni Neutrino capture 63 0n 28 Ni 63 28 Ni Radioactive decay 63 29Cu Other elements have to have this occur very fast, the rate of neutron capture before radioactive decay requires a supernova

Planetesmal theory Number of large planetesmals which may have had significantly different compositions Collisions of these formed larger bodies which became planets some think the chemical differences between core and mantle could be derived from this Moon formed from collision of Mars-sized body, likely altered the atmosphere significantly

Nebular Hypothesis Idea presents the solar system as a disk of material which on turning and gravitational attraction resulted in large bodies, which then reduced in size to form inner planets

Temperature-Pressure gradients As the nebular material began rotating (gravitational, magnetic, electrostatic forces cause this), the material starts to develop some order The temperature and pressure gradients began chemical differentiation because of condensation reactions, forming particles of solid material NASA probes have seen this in bodies thought to be actively forming planetoids

Condensation reactions Temperature thought to vary from 2000-40 K Closer to the sun refractory oxides (CaO, Al 2 O 3, TiO 2, REE oxides), Fe and Ni metals Further out, silicates form Finally, ices (H 2 O, NH 4, CH 4, etc) form

Elemental abundances O 62.5% (atomic %) Si 2.2% Al 6.5% Fe.9% Ca.9% Na 2.6% K.42% Mg.84%

Nuclear reactions determine element abundance Is the earth homogeneous though? Is the solar system?? Is the universe???

Earth s Chemical Differentiation In earth s early history, it was molten, and the chemicals continued to differentiate throughout it based on physical principles

Seismic waves Earth s structure

3 Major Zones, 2 Transitions crust MOHO - ~40km mantle Wiechert-Gutenberg discontinuity core

Crustal Differentiation The earth s crust has widely varying chemistry why is that? Differentiation processes affect all major rock types Wide variety of specific reactions happen as igneous, metamorphic, and sedimentary rocks form, change, transport ions, and decompose which result in geochemical differentiation

Plate Tectonics - Igneous Genesis. Mid-ocean Ridges 2. Intracontinental Rifts 3. Island Arcs 4. Active Continental Margins 5. Back-arc Basins 6. Ocean Island Basalts 7. Miscellaneous Intra- Continental Activity kimberlites, carbonatites, anorthosites...

How does Magma composition change? Hot material in different parts of the mantle? Melts some rocks into it interacts with surrounding material (Partial Melting) Fractional crystallization crystals form and get separated form source Ca 2+ Mg 2+ Na Fe + O 2-2+ Liquid hot O 2- MAGMA O 2- Si 4+ O 2- Si 4+ O 2- O 2- O 2- O 2- O 2- Si 4+ O 2- Fractional xstallization Ca 2+ O 2- Na O 2- + Liquid hot O 2- MAGMA Si 4+ O 2- Si 4+ O 2- O 2- O 2- O Si 4+ Mg 2+ Fe rock 2+ Mg 2+ O2- O 2-2-

Metamorphic Rocks Agents of Change T, P, fluids, stress, strain Metamorphic Reactions!!!! Solid-solid phase transformation Solid-solid net-transfer Dehydration Hydration Decarbonation Carbonation

Sedimentary Materials Sedimentary rocks cover 80% of the earth s surface but only comprise ~% of the volume of the crust

Aqueous Species Dissolved ions can then be transported and eventually precipitate Minerals which precipitate from solution are rarely the same minerals the ions dissolved out of Why would they need to be transported before precipitating? SiO 2 feldspar Na + K + SiO 2 smectite

Earth = anion balls with cations in the spaces View of the earth as a system of anions packed together By size and abundance, Si and O are the most important If we consider anions as balls, then their arrangement is one of efficient packing, with smaller cations in the interstices Closest packed structures are ones in which this idea describes atomic arrangement OK for metals, sulfides, halides, some oxides

Packing Spheres and how they are put together HCP and CCP models are geometrical constructs of how tightly we can assemble spheres in a space Insertion of smaller cations into closest packed arrays yield different C.N. s based on how big a void is created depending on arrangement

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