TITLE:
Earth’s Magnetic Field—The Key to Global Warming
AUTHORS:
Bjarne Lorenzen
KEYWORDS:
Earth’s Magnetic Field, Geodynamo, Global Warming
JOURNAL NAME:
Journal of Geoscience and Environment Protection,
Vol.7 No.7,
July
24,
2019
ABSTRACT:
It is commonly known that the
climate debate suffers due to a lack of knowledge about the cause and effect
relationship between a number of climatic temperature variations that have
occurred in history without being able to blame human emission of greenhouse
gas in any way. Only when we are willing to give up the idea that there is a geodynamo
deep inside of the Earth being responsible for the Earth’s magnetic field and
when we get back to the idea that the origin of the magnetic field is simply
ferromagnetic, will it be possible to establish two different cause and effect
connections that are suitable to explain why there is an acknowledged
coincidence between climatic temperature variations and an intensive,
proportional variation in the strength of the Earth’s magnetic field. Such
insight may easily prove to be decisive at a time when many people can no
longer differentiate between politics, mass hysteria, presumptions and actual
knowledge. When there are requirements that a solution to climatic temperature
variations must contain the solution to the coincidence mentioned, two possible
scenarios exist. The one possibility (although not very likely) that is
suitable to solve the mysterious coincidence is that mainly the northern part
of the Atlantic Ocean is heated from within (from the interior of the Earth)
and that variations in the Earth’s emission of heat cause primarily all of
Europe to have witnessed warm winters for decades. The one possible cause and
effect connection may (in theory) be that inner heat in the Earth’s crust can
loosen frozen, ferromagnetic structures, thereby drive the Earth’s
ferromagnetic, magnetic field to restructure and be reorganised from
periodically being a chaotic, magnetic field to periodically being a
well-structured, ferromagnetic field. The connection between magnetism and
thermal impact is already commonly known. The other and somewhat more likely
cause and effect connection is building on Henrik Svensmark’s (and teams)
theory that says that variations in the cosmic radiation reaching the Earth
depend on the strength of the Sun’s magnetic field and that this radiation
contributes to creating aerosols, thereby variations in the cloud formation.
Solar storms contribute to temporarily strengthening the Earth’s magnetic
field. The question is whether these contributions could also periodically have
a long-term effect on the Earth’s magnetic field. In that case, this may
explain the reason for the above-mentioned coincidence.