«Faraday said
changing magnetic flux generates anelectromotive force — a voltage, if you like,» says Blandford, who is nowat Caltech.
«Faraday said
changing magnetic flux generates an electromotive force — a voltage, if you like,» says Blandford, who is now at Stanford University.
Not exact matches
After all, the implied
changes in GCR
flux are huge compared to what is expected from the gentle modulation of the Earth's
magnetic field arising from recent solar activity
changes (not that there's any trend in those that would explain recent warming).
Short term solar cycles of the 27 day rotation periods, due to the polarity shifts in
magnetic flux changes in the solar wind, The moon has a North / South declinational component as part of it's set of orbital parameters.
Inductive heating occurs when a conductor (like the Earth) moves through
magnetic flux (e.g. rotates and revolves around the Sun) or when the
flux through a stationary conductor
changes for other reasons.
It could be solar, a
change of the Earth's
magnetic field, or a
change in the galactic
flux of cosmic rays [unlikely, but possible].
This provides strong support for the hypothesis that solar irradiance variations are caused by
changes in the amount and distribution of
magnetic flux at the solar surface.
But of course, if you ignore the COMPLETE solar spectrum, I guess you can (need to) ignore the effect
changes in the earth's
magnetic flux would have on that radiation.
Solar cycles of
magnetic variability result in
changes in the luminal spectra of the sun, the properties of the solar wind, and the
flux of galactic cosmic rays incident on Earth's atmosphere.
After all, the implied
changes in GCR
flux are huge compared to what is expected from the gentle modulation of the Earth's
magnetic field arising from recent solar activity
changes (not that there's any trend in those that would explain recent warming).