A Short History of the Universe. The universe in a grain of sand Particles and forces The Big Bang Early history of the universe Nucleosynthesis

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A Short History of the Universe The universe in a grain of sand Particles and forces The Big Bang Early history of the universe Nucleosynthesis

Molecular Level Quartz SiO 2 Composed of linked spirals of silica tetrahedrons http://www.uwgb.edu/dutchs/petrolgy/quartzstruc.htm

Molecular Level O Silica Tetrahedron Si O O O Each tetrahedron is made of one silicon atom bonded to four oxygen atoms

The atom is the fundamental particle of chemistry. It is composed of three smaller types of particles e - Electrons are negatively charged particles with very little mass that are attracted to the positively charged nucleus of the atom Protons (positively charged particles) and neutrons (particles with no charge) are bound together in the relatively massive nucleus of the atom. http://particleadventure.org/

All hydrogen atoms have one proton All nickel atoms have twenty- eight protons An element is all atoms with the same number of protons in the nucleus. http://particleadventure.org/

The number of neutrons in the nucleus can vary from atom to atom in an element. These variations, called isotopes, have different atomic weights, and some are not stable, and thus can radioactively decay. The isotopes are chemically identical. All carbon atoms have six protons Carbon-12 has 6 neutrons Carbon-13 has 7 neutrons Carbon-14 has 8 neutrons Stable Stable UNSTABLE!

Sub-Atomic Level Protons and neutrons are made up of fundamental particles called quarks. Electrons are fundamental particles. http://particleadventure.org/

Atoms nucleus and electrons Nucleus protons and neutrons Sub-Atomic Particles protons and neutrons Fundamental Particles quarks and leptons http://particleadventure.org/

up up up down down down QUARKS! Fundamental Particles Each quark has a fractional electrical charge. They combine to form sub-atomic particles Proton up + up + down (+2/3 )+(+2/3)+(-1/3) = +1 charge Neutron up + down + down (+2/3 )+(-1/3)+(-1/3) = no charge http://particleadventure.org/

Fundamental Particles LEPTONS! Electrons are the most important lepton. http://particleadventure.org/

Forces http://particleadventure.org/

Weak Nuclear Force Responsible for holding more massive quarks and leptons together More massive fundamental particles rapidly decay to more stable, lower mass particles (e.g., tau to muon to electron) http://particleadventure.org/

Strong Nuclear Force Holds quarks together in sub-atomic particles Attraction is caused by differences in quark color (which has nothing to do with real color) http://particleadventure.org/

Residual Strong Nuclear Force Holds nucleus together Color attraction between quarks overcomes electromagnetic repulsion, but only over very small distances http://particleadventure.org/

Electromagnetism attraction of oppositely charged particles e.g., a proton (+1 charge) and an electron (-1 charge) + - repulsion of similarly charged particles + + e.g., two protons (each with a +1 charge) http://particleadventure.org/

Electromagnetism Atoms bond together to make molecules, which are described with chemical formulas. Molecular structures can be simple, or very complex. Caffeine Table Salt 1,3,7-trimethyl-1H-purine-2,6(3H,7H)-dione C 8 H 10 N 4 O 2 Sodium Chloride NaCl h1p://www.mylot.com/w/image/2435174.aspx http://www.chemistry.wustl.edu/~edudev/labtutorials/water/publicwatersupply/ PublicWaterSupply.html

Electromagnetism Basis of all chemistry Responsible for properties of phases of matter Prevents everyone in this room from falling to the center of the Earth http://library.tedankara.k12.tr/

Gravity Gravity is a property of matter any object with mass also exerts gravitational attraction. All objects attract each other gravitationally, with more massive objects exerting greater force. It has been hypothesized that mass warps space in a higher dimension, thus causing objects to be attracted to each other. http://particleadventure.org/

mutual attraction of all matter slows universal expansion Forces bonds atoms to each other, responsible for electric and magnetic Weak fields nuclear force is not important in current universe holds subatomic particles AND atomic nucleii together. http://particleadventure.org/

So how did the universe get to be this way? Stars and Galaxies Start Point Elements: H, He, Li Our Solar System

Hubble Space Telescope Mapping to Date: Millions of galaxies

Humans have observed only a small portion of the Universe, but other than our members of our own galaxy and our galaxy s nearest neighbors, all objects we have observed are moving away from us. There s nothing wrong with us - the objects are moving away from each other, too. In other words, the universe appears to be expanding. If we run the tape backwards, and re-compress the universe, there was a time (12-14 billion years ago), when the entire universe was unimaginably dense and small. The event that led to the expansion from that dense universe is called the Big Bang.

The leading hypothesis in cosmology is that the universe today is the result of expansion after the Big Bang.

Nucleosynthesis Making New Elements Hydrogen Fusion Given enough energy, protons can hit each other hard enough for the strong nuclear force to overcome electromagnetic repulsion. In the modern universe, hydrogen fusion takes place in the hearts of stars. It is also the basis of thermonuclear bombs. http://www.astronomynotes.com/

Big Bang Elements Baryons (protons and neutrons) formed at a time when there was still lots of energy available to shoot them around. As the baryons knocked into each other, some stuck, forming isotopes of the elements hydrogen, helium and lithium. There was not enough energy to form heavier elements.

Big Bang Elements Hydrogen (1) Helium (2) Lithium (3) Elements formed during and soon after the Big Bang.

Elements of the Earth s Crust Noble Gasses Unstable Elements

Composition of Star Nebulae H 1,000,000 He 98,000 O 850 Ne 120 N 100 Fe 47 Na 2 Other 100 The modern, visible universe is still primarily hydrogen and helium, but with other elements These elements were not made during the Big Bang, and must have been assembled in the billions of years since then. http://www.astronomynotes.com/

Post-Big Bang Elements Where were (and are!) these heavier elements formed? Both in the hearts of living stars and during some of their explosive deaths

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