Tuesday, March 8, 2011

Dreamspell Mayan Calendar - A Program for the Future

The Dreamspell Mayan Calendar 2011-2012 and It's Structure

Two of the best sites for understanding the basics of the Dreamspell Mayan Calendar can be found at
13moon.com  and Law of Time

This prophecy is about us looking at ourselves and understanding how we are contributing to the planetary equation; recognizing how our beliefs, our intentions, our words and deeds feed directly to the one pool of being we are all swimming in. We have the power to uplift our shared life. Every moment invites us back to this power within us, our creative power inherent in being alive. 
13moon.com 

From the Law of Time
Synchronicity is the operation of a higher moving template of mathematical order that coordinates all phenomena telepathically. This creates the fourth-dimensional reality, the synchronic order. The fundamental cycles of the synchronic order are:

4-day cycles (harmonics):

Smallest fractal cycle. The 20 solar seals are coded by four colors to create the five time cells (4 x 5 = 20). Each of these sets is called a harmonic with a basic pattern of meaning: red (initiates), white (refines), blue (transforms), yellow (ripens).

5-day cycles (chromatics):

Five day sequence that starts and ends with same color: Yellow Fire clan, Red Blood clan, White Truth clan, Blue Sky clan. There are 73 five-day chromatics to every 52 weeks.

7-day cycles (week or heptad):

Standard measure. There are four seven-day cycles per moon (4 x 7 = 28). Each day is coded by one of the seven radial plasmas.

13-day cycles (wavespells):

Standard fractal unit of measure. A wavespell can be 13 days, 13 weeks, 13 moons, 13 years, 13 baktuns, etc. There are 20 wavespells of 13 days per 260-day spin (20 x 13 = 260).

20-day cycles (vinals and solar seals):

20-day sequence always coded by the solar seal that codes the year. Creates an annual cycle of solar meditations. 20-day cycle also refers to 20 solar seals: Dragon to Sun

28-day cycles (moons):

28 is the harmonic standard. 4 (weeks) x 7 (days) = 28. There are 13 moons per year (28 x 13 = 364) +1 (Day out of Time).

52-day cycles (castles):

Each castle consists of four color-coded wavespells (4 x 13 = 52). Five 52-day castles pace each 260-day spin (52 x 5 = 260) Castles are used to map different time ratios: 52 days, 52 years, etc.

65-day cycles (galactic seasons or spectrum):

There are four 65-day cycles within a 260-day spin. These cycles are coded by the third (electric) tone of the four kin of the polar earth family, i.e. Red Electric Serpent, White Electric Dog, Blue Electric Eagle and Yellow Electric Sun.

260-day cycles (one Tzolkin “spin”):

Fourth-dimensional timing gauge, based on a 13 x 20 matrix, which codes the 13:20 timing frequency.

365-day cycle (one solar orbit):

Also known as a solar ring, perfectly measured by the 13 Moon, 28-day harmonic standard.
364 + 1 (Day out of Time).
Note: If we coordinate the 13 Moon, 28-day pattern plus the 365th day (Day out of Time) with the 260-day pattern, we arrive at a cycle of 18,980 days, or 52 years, or 73 of the 260-day patterns. Also note that the 52-year solar-galactic cycle corresponds to the orbit of Sirius B around Sirius A.

Sunday, March 6, 2011

NASA on Solar Storms 2012-2013

Solar Storms and Solar Activity
As the Sun Awakens NASA Keeps a Wary Eye on Space WeatherNASA News
June 4, 2010: Earth and space are about to come into contact in a way that's new to human history. To make preparations, authorities in Washington DC are holding a meeting: The Space Weather Enterprise Forum at the National Press Club on June 8th.



Many technologies of the 21st century are vulnerable to solar storms. [more]
Richard Fisher, head of NASA's Heliophysics Division, explains what it's all about:
"The sun is waking up from a deep slumber, and in the next few years we expect to see much higher levels of solar activity. At the same time, our technological society has developed an unprecedented sensitivity to solar storms. The intersection of these two issues is what we're getting together to discuss."
A century-class solar storm, the Academy warned, could cause twenty times more economic damage than Hurricane Katrina. 


Global Eruption Rocks the Sun
Dec. 13, 2010:  On August 1, 2010, an entire hemisphere of the sun erupted. Filaments of magnetism snapped and exploded, shock waves raced across the stellar surface, billion-ton clouds of hot gas billowed into space. Astronomers knew they had witnessed something big.
It was so big, it may have shattered old ideas about solar activity.
..."We see that solar storms can be global events, playing out on scales we scarcely imagined before."
..."the global character of solar activity can no longer be ignored."


Solar Shield - Protecting the North American Power Grid
NASA News
 Oct. 26, 2010:  Every hundred years or so, a solar storm comes along so potent it fills the skies of Earth with blood-red auroras, makes compass needles point in the wrong direction, and sends electric currents coursing through the planet's topsoil. The most famous such storm, the Carrington Event of 1859, actually shocked telegraph operators and set some of their offices on fire. A 2008 report by the National Academy of Sciences warns that if such a storm occurred today, we could experience widespread power blackouts with permanent damage to many key transformers.
...When a coronal mass ejection (a billion-ton solar storm cloud) hits Earth's magnetic field, the impact causes the field to shake and quiver. These magnetic vibrations induce currents almost everywhere, from Earth's upper atmosphere to the ground beneath our feet. Powerful GICs can overload circuits, trip breakers, and in extreme cases melt the windings of heavy-duty transformers
Severe Space Weather
NASA News
..."Electric power is modern society's cornerstone technology on which virtually all other infrastructures and services depend," the report notes. Yet it is particularly vulnerable to bad space weather. Ground currents induced during geomagnetic storms can actually melt the copper windings of transformers at the heart of many power distribution systems. Sprawling power lines act like antennas, picking up the currents and spreading the problem over a wide area. The most famous geomagnetic power outage happened during a space storm in March 1989 when six million people in Quebec lost power for 9 hours: image.

...The loss of electricity would ripple across the social infrastructure with "water distribution affected within several hours; perishable foods and medications lost in 12-24 hours; loss of heating/air conditioning, sewage disposal, phone service, fuel re-supply and so on."

Useful Links for Preparations for and Actions During an Electromagnetic Storm

Electromagnetic Shielding
Future Science


Overall Preparedness
blog.2012

Thursday, March 3, 2011

Interest on the US National Debt Unaffordable by 2013


"As of now, the world financial system is on the brink of collapse due to it's own shortcomings. The controller of currencies stated in 2003 that the interest on the US national debt will not be affordable in less than ten years.

This theoretically means total bankruptcy for the US economy and it's implications for the world are immense."
 Zeitgeist: Addendum.

Blue is the Federal Reserve
Wikipedia

..... For the only way to keep the banks going is by making more money. The only way to make more money is to create more debt and inflation
. It is simply a matter of time before the tables turn and no one is willing to make new loans while defaults grow as people are unable to afford their current loans. Then the expansion of money will stop and contraction will begin on a scale never before seen. Ending a century long pyramid scheme. This has already begun"
Zeitgeist: Addendum.



Wikipedia - United States Debt
As of February 28, 2011, the Total Public Debt Outstanding of the United States of America was $14.19 trillion and was 96.8% of calendar year 2010's annual gross domestic product (GDP) of $14.66 trillion. Using 2010 figures, the total debt (96.3% of GDP) ranked 12th highest against other nations.
and from www.treasurydirect.gov
Interest Expense Fiscal Year 2011
February $21,759,253,957.26
January $21,122,729,715.18
December $104,700,174,845.03
November $19,396,316,137.56
October $24,142,491,931.22
Fiscal Year Total $191,120,966,586.25

Available Historical Data Fiscal Year End
2010 $413,954,825,362.17
2009 $383,071,060,815.42
2008 $451,154,049,950.63 ...


Wikipedia - Money Creation

In economics, money creation is the process by which the money supply of a country is expanded. There are two principal stages of money creation. First, the central bank of a country can introduce or issue new money into the economy (termed 'expansionary monetary policy'). A central bank usually injects new money into the economy by purchasing financial assets. Second, the new money introduced by the central bank is multiplied by commercial banks through fractional reserve banking, expanding the amount of broad money (i.e. cash plus demand deposits) in the economy.


Wikipedia - Treasury Security

A United States Treasury security is government debt issued by the United States Department of the Treasury through the Bureau of the Public Debt. Treasury securities are the debt financing instruments of the United States Federal government, and they are often referred to simply as Treasuries.There are four types of marketable treasury securities: Treasury bills, Treasury notes, Treasury bonds, and Treasury Inflation Protected Securities (TIPS). There are several types of non-marketable treasury securities including State and Local Government Series (SLGS), Government Account Series debt issued to government-managed trust funds, and savings bonds.

Wikipedia - Government Bond

"A bond is a debt investment in which an investor loans a certain amount of money, for a certain amount of time, with a certain interest rate, to a company or country"

The US government borrows money by selling Securities. The Federal reserve buys US Government Securities.
Wikipedia - Fractional Reserve Banking:


Fractional-reserve banking is the banking practice in which only a fraction of a bank's deposits are kept as reserves (cash and other highly liquid assets) available for withdrawal.[1][2][3][4] The bank lends out some or most of the deposited funds, while still allowing all deposits to be withdrawn upon demand. Fractional reserve banking is practiced by all modern commercial banks.

When cash is deposited with a bank, only a fraction is retained as reserves, and the remainder can be loaned out (or spent by the bank to buy securities). The money lent or spent in this way is subsequently deposited with another bank and increases the cash reserves of that second bank, allowing that second bank to keep a fraction of the new deposit and lend or spend the remainder. Thus the excess cash travels from bank to bank to bank creating new deposits as it goes. Although no individual bank does anything other than lend part of what is deposited with it, the practice of fractional reserve banking in a multi-bank system expands the money supply (cash and demand deposits) to a large multiple of the cash reserves in all banks.[5]

The nature of modern banking is such that the cash reserves at the bank available to repay demand deposits need only be a fraction of the demand deposits owed to depositors. In most legal systems, a demand deposit at a bank (e.g. a checking or savings account) is considered a loan to the bank (instead of a bailment) repayable on demand, that the bank can use to finance its investments in loans and interest bearing securities. Banks make a profit based on the difference between the interest they charge on the loans they make, and the interest they pay to their depositors. Since a bank lends out most of the money deposited, keeping only a fraction of the total as reserves, it necessarily has less money than the account balances of its depositors.