鸡孵宏运
坐享其成
《哈》
银啄运开
宝贵一堂
《哈哈》
凤飏雏群
独领风骚
《哈哈哈》
砌城封将
一索得男
《鸡呢? 一索!》
Tuesday, January 17, 2017
Bomber, Oh Bomber
The problem is the excess of \(CO_2\) hovering in the lower atmosphere, from burning fossil fuel, that traps heat closer to the ground level. Projections for global warming must also include heat from the Earth's core.
Exposed source of water will evaporate quickly. Cover them.
There can be water pools above the clouds of \(CO_2\). Rain will be excessive at this level. Grab the highlands. Trap and redistribute water on the highlands to the ground levels.
Fresh water source will be scarce when the ground heats up. This will occur way before mass extinction.
Given high \(CO_2\) levels, this can occur in the next two decades...
But first with excesses from the melting polar caps, it will rain and flood. Have a nice decade or two.
Exposed source of water will evaporate quickly. Cover them.
There can be water pools above the clouds of \(CO_2\). Rain will be excessive at this level. Grab the highlands. Trap and redistribute water on the highlands to the ground levels.
Fresh water source will be scarce when the ground heats up. This will occur way before mass extinction.
Given high \(CO_2\) levels, this can occur in the next two decades...
But first with excesses from the melting polar caps, it will rain and flood. Have a nice decade or two.
Monday, January 16, 2017
Summer Time
Don't Panic.
Earth has passed many long count cycles. Maybe at each turn, its severity (Ice age or mass extinction) abate progressively, so much so that the last glacial period, 1281.5 years ago was not recognized as an Ice Age but was just very cold weather.
Still, it is going to be HOT.
Earth has passed many long count cycles. Maybe at each turn, its severity (Ice age or mass extinction) abate progressively, so much so that the last glacial period, 1281.5 years ago was not recognized as an Ice Age but was just very cold weather.
Still, it is going to be HOT.
When It Is Hot Enough!
Remember the Mayan long count calendar (post dated 24 Jan 2016, "The Mayan Calendar Again"); before 4 Jul 2016, earth's magnetic field decreases to a minimum, after which the field races towards the next maximum. The rate of change of the magnetic field changes from negative to positive.
When the gradient was negative, in response to a decreasing magnetic field (as in the case of a coil with a collapsing magnetic field and an induced emf), energy is absorbed from the environment to maintain the collapsing field. The polar regions cool and the ice caps formed.
After the magnetic minimum on 4 Jul 2016, an up turned gradient (as in the case of a coil with an increasing field and an opposite induced emf), the flow of energy is reversed to suppress the increasing magnetic field.
Now, this is the difficult part...without introducing temperature particles in motion perpendicular to Earth's spin and Earth's spinning magma...
The polar regions heat up and the ice caps melts. The Equator cools.
The greatest change in magnetic gradient is now when the field is near the extrema, assuming that the 5000 years long beat due to Earth's spin and Earth's magma spin is sinusoidal. Now and in the next few centuries (yes, a few hundred years) Earth will experience the greatest raise in temperature.
If the magnetic gradient, around its negative maximum is Earth's Ice Age, then the magnetic gradient, around its positive maximum would be Mass Extinction.
This is assuming that the heat kills off all when the magnetic gradient is at its positive maximum. It is more likely that mass extinction occurs over a long period and starts off when the weather is hot enough, at a time closer to 4 Jul 2016. As early as,
\(????=\cfrac{1281.5}{2}=640.75\)
or 640 years from now. How does the number two come about? If mass extinction occurs over half the period when the magnetic gradient is positive, and we center this half period at the point of maximum positive gradient, then mass extinct starts a quarter of the way from 4 Jul 2016.
When it is hot enough! But first, when the polar ice melts, earth floods.
When the gradient was negative, in response to a decreasing magnetic field (as in the case of a coil with a collapsing magnetic field and an induced emf), energy is absorbed from the environment to maintain the collapsing field. The polar regions cool and the ice caps formed.
After the magnetic minimum on 4 Jul 2016, an up turned gradient (as in the case of a coil with an increasing field and an opposite induced emf), the flow of energy is reversed to suppress the increasing magnetic field.
Now, this is the difficult part...without introducing temperature particles in motion perpendicular to Earth's spin and Earth's spinning magma...
The polar regions heat up and the ice caps melts. The Equator cools.
The greatest change in magnetic gradient is now when the field is near the extrema, assuming that the 5000 years long beat due to Earth's spin and Earth's magma spin is sinusoidal. Now and in the next few centuries (yes, a few hundred years) Earth will experience the greatest raise in temperature.
If the magnetic gradient, around its negative maximum is Earth's Ice Age, then the magnetic gradient, around its positive maximum would be Mass Extinction.
This is assuming that the heat kills off all when the magnetic gradient is at its positive maximum. It is more likely that mass extinction occurs over a long period and starts off when the weather is hot enough, at a time closer to 4 Jul 2016. As early as,
\(????=\cfrac{1281.5}{2}=640.75\)
or 640 years from now. How does the number two come about? If mass extinction occurs over half the period when the magnetic gradient is positive, and we center this half period at the point of maximum positive gradient, then mass extinct starts a quarter of the way from 4 Jul 2016.
When it is hot enough! But first, when the polar ice melts, earth floods.