Pic 1: Historical temperature and carbon graph showing 400,000 years of data
Pic 2: A 250 million year history of the continents. Notice the inversion of the crescent shape) while circling the milky way one complete rotation.
Pic 3: The expected position of the continents in 250 milion years based on current understanding of tectonics, once again presenting an inverted crescent in while circling the milky way once.
Pic 4: Temperature of internal layers
Pic 5: Location and shape of earth's plumes and mantle
Pic 6: Milankovitch cycles
Pic 7: Solar sunspot cycles
Pic 8: Solar magnetic field strength
Pic 9: Earth magnetic field
Pic 10: Gravitity anomaly interference patterns fro GRACE satellite
Pic 2: A 250 million year history of the continents. Notice the inversion of the crescent shape) while circling the milky way one complete rotation.
Pic 3: The expected position of the continents in 250 milion years based on current understanding of tectonics, once again presenting an inverted crescent in while circling the milky way once.
Pic 4: Temperature of internal layers
Pic 5: Location and shape of earth's plumes and mantle
Pic 6: Milankovitch cycles
Pic 7: Solar sunspot cycles
Pic 8: Solar magnetic field strength
Pic 9: Earth magnetic field
Pic 10: Gravitity anomaly interference patterns fro GRACE satellite
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@Alistair - Fantastic! Now lets examine each of these forcings individually and try to quantify their influence on the global temperatures separately. After that we can debate interactions between individual forcings and deduce net influence on the climate of earth. Lets proceed from less complexity to more complexity to keep things comprehensible for everybody.
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