6.0+ Quakes Shake The Poles – Again

USGS small globe showing the 6.1 earthquake in Alaska.

A 6.1 quake in the Aleutian Islands, Amatignak, Alaska, November 12, 2013 – USGS

Large quakes have been occurring at both the North and South Poles, again. The closer these quakes occur to one another signals more movement at the poles.

When polar earthquakes occur, the Earth’s axis is rocking back and forth in small arcs seeking balance like a tightrope walker wobbles in the middle of a suspended rope.

Every planet balances on its axis much like a tightrope walker balances on a wire suspended in the air. When that balance is disrupted, instability occurs at the poles, more wobbling results, and more earthquakes occur at both of the poles.

North Pole

The movement started with a 6.6 magnitude quake at Ust’ Kamchatsk, Russia.

A 6.1 quake followed east of Kamchatsk at Amatignak, Alaska.

USGS small globe showing the 6.6 earthquake in the Scotia Sea.

A 6.1 magnitude quake in the Scotia Sea, Antarctica, November 13, 2013 – USGS.

South Pole

The Scotia Sea, Antarctica responded with a 6.1 magnitude quake just hours later.

A Tightrope Walker

A tightrope walker on a rope with a planet behind his silhouette.

The Earth wobbles like a tightrope walker when its axis is unstable.

Imagine that the Earth’s geographic poles are like a stick poking out of the top and bottom of the Earth, piercing straight through the heart of the planet like a skewer.

Now, visualize the magnetic poles running alongside the “skewer”, pulsating around it like a static’y shadow.

When the Earth moves, the “skewer” moves with it.

The North and South Poles (both magnetic poles and geographic poles) vibrate when the planet shifts, much like a tightrope walker quivers as he balances on a high wire.

Over the past 4.54 billion years, the Earth has wobbled on its axis many times to maintain balance.

When the Earth slips on its axis, the planet is still rotating, and this spin is very important because it keeps the magnetic field functioning.  If rotation stops entirely, the magnetic field completely shuts down.

We are watching this same effect on the Sun today as its magnetic field prepares to “flip.

A picture of the Sun's magnetic fields.

Every 11 years, the Sun’s magnetic poles reverse, and this big event will take place within the next 2 months. Courtesy of NASA

Maintaining Balance

A wirewalker will sway to and fro to better control his balance, and the result is less tipping. The wirewalker can control his sway by rotating his balancing pole sideways, using a pole or his arms.

The Earth does the same thing when it rotates on its axis. The North and South Poles tip from side to side in tiny arcs to maintain balance.

The Earth also controls the sway at the poles by tipping its axis sideways. When this happens, the entire planet responds: global weather patterns change, more earthquakes and volcanic eruptions take place, and violent storms and flooding result.

Super Typhoon from NOAA the Philippines

Super Typhoon Haiyan, November 2013 – NOAA

From “Super Typhoons” to strong earthquakes at the poles –  we are witnessing a polar “sway.”

Let’s see how the rest of the planet responds over the next few days.

 

 

 

 

 

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About Janet

Janet Starr Hull, PhD, CN has expressed a deep love and respect for the Earth since she was a very young child. She earned academic degrees in International Geography and Environmental Science. After 20 years of research, Dr. Hull uncovered evidence supporting her theory that the Earth’s geographic poles shift at the axis, causing dramatic climate change. Today, she is one of the world’s leading environmental experts promoting public environmental awareness. Connect with Dr. Hull on Facebook, Twitter, and Google Plus.

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