No, the earth's magnetic field does NOT change linearly in time. As far as we can tell, it is a very abrupt change, possibly related to the galactic current sheet.
@@ifalicov I have ideas for even longer timespans: Galactic year (225-250m years), Sun lifetime (10-12 billion years), red dwarf lifetime (4-10 trillion years), bismuth-209 half-life (2E19 years), tellurium-128 half-life (2.2E24 years), proton half-life (8.2E33-3.2E45 years), black hole lifetime (1E67-2E109 years)
@@ifalicov For shorter timespans than a second: frame rate (24, 30, 60 fps), acoustic frequencies of middle C (~260/s) and A4 (440/s), common audio sampling frequency (44100 Hz), AM radio frequency (~1MHz), FM radio frequency (~100MHz), WiFi (2.4, 5, 6, 60GHz), terahertz, visible light (430-750THz), ultraviolet (~2.5PHz=2.5E15Hz), x-ray (3E16-3E19Hz), gamma (>1E20Hz-3.9E27Hz), Planck time (~5.4E-44s or ~1.85E43Hz)
No, the earth's magnetic field does NOT change linearly in time. As far as we can tell, it is a very abrupt change, possibly related to the galactic current sheet.
I suggested showing precession as an alternative
Read the description
Do one for 1 billion years
Or trillion.
or on quintillion
Or decillion
The cameraman never dies
Could you incorporate axial and apsidal precession into the clock instead?
Great idea. I will research into that axial/apsidal precession and design ideas what they should look like eventually.
@@ifalicov I have ideas for even longer timespans: Galactic year (225-250m years), Sun lifetime (10-12 billion years), red dwarf lifetime (4-10 trillion years), bismuth-209 half-life (2E19 years), tellurium-128 half-life (2.2E24 years), proton half-life (8.2E33-3.2E45 years), black hole lifetime (1E67-2E109 years)
@@ifalicov For shorter timespans than a second: frame rate (24, 30, 60 fps), acoustic frequencies of middle C (~260/s) and A4 (440/s), common audio sampling frequency (44100 Hz), AM radio frequency (~1MHz), FM radio frequency (~100MHz), WiFi (2.4, 5, 6, 60GHz), terahertz, visible light (430-750THz), ultraviolet (~2.5PHz=2.5E15Hz), x-ray (3E16-3E19Hz), gamma (>1E20Hz-3.9E27Hz), Planck time (~5.4E-44s or ~1.85E43Hz)
solving 34-disc hanoi tower please
*Made in Heaven*