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Explore the Scientific Method through historical examples like Alfred Wegener and Eratosthenes to Isaac Newton's contribution, unveiling how Earth's composition and seismic waves offer insights into the workings of the universe.
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Goal: Explain How Universe Works • Scientific method: the process where ideas are formed, tested, and refined • Step 1: • Questions sparked by observation or experiments
Strange Observations • Alfred Wegener • 1910 Pangaea
But what does it all mean? • Step 2: • Formulate hypothesis: tentative explanation built on strong supporting evidence • Continental drift? • Continents were once part of giant supercontinent, Pangaea (“all earth”) and have since drifted apart to their current locations
Wegener’s Hypothetical Earth • Late Carboniferous • 300 Ma • Middle Tertiary • 50 Ma • Early Quaternary • 10 ka
But… (the hardest part) • Step 3: • All hypotheses must be tested • Counter-evidence you’re wrong, back to beginning • Support confidence, becomes scientific theory basis for future tests
Wegener couldn’t test it… • Mechanism for continental migration?! • His idea: continents floated like boats on ocean basin crust pulled by tides of Sun and Moon • Unfortunately, forces are much too weak • Open and shut? • Wegener was apparently wrong
Eratosthenes (~250 B.C) • Experiment • If the Sun is far enough away, its rays are parallel • A well in Syene, a pole in Alexandria 800 km apart at same time, same day • No shadow in Syene but shadow in Alexandria
Disproving the Flat Earth Theory • Earth must be curved • Calculated that earth was a sphere, 250,000 stadia in circumference at the equator • Not sure how big a stadion • Attic stadion (~185 m): 46,620 km (over by 16.3%) • Egyptian stadion (~157.5 m): 39,690 km (<1%!) • Actual circumference 40,075.16 km
Isaac Newton • Discovered how to measure the Earth’s mass by the strength of gravity • Density (D) = Mass (M) / Volume (V) • With Eratosthenes’ circumference… • Could estimate average Earth (D) = 5.5 g/cm3
What Was the Earth Made Of? • Major problem: • Surface rocks mostly low density = 2.7 g/cm3 • Some iron-rich rocks had density = 3.5 g/cm3 • So where was the dense material? • Something REALLY DENSE had to account for the high average density
The Dense Nougat Center • Emil Wiechert, German Physicist Pressure increases with depth, makes sense that deep rocks, more compact, higher density Iron-nickel meteorites densest material identified • Wiechert’s hypothesis: Earth must be layered and iron/nickel settled to core under gravity Si-rich low-density “mantle” – sandstones, etc Iron-rich “core”
Earthquakes Provide Answers • What are earthquakes or seismic waves? • Waves that travel through rock • What is a wave? • Movement of energy with little permanent movement of mass • Frequency = peaks/s • Velocity = frequency * wavelength
Body Waves(Waves that pass through the Earth) • P-wave = • compressional • S-wave • shear (secondary)
Surface Waves(Waves that occur at the Earth’s surface) • Love = side to side • Rayleigh = up and down
Notes About Earthquakes • All earthquakes involve all wave types • Body waves travel fastest • P-wave (5-6 km/sin crust), S-wave (3.5 km/s) • Seismic waves travel faster through denser, more rigid rocks • P-waves can travel through liquids, solids, gas • S-waves cannot travel through liquids, gases
The Seismograph • Recording earthquakes
What is an Epicenter? • Epicenter –location on earth’s surface • Focus – place where fault first moved • Recall P and S-wave times
