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"The future ain't what it used to be."

The recall15 Thread

recall15

recall15

Timekeeper
Cause HDRKid hava two... and RMT said:
/ttiforum/images/graemlins/devil.gif <font color="red">
... And should I remind us all that there is no Planet X (nor Y or Z for that matter), and all the badness that our dearly departed friend recall15 was wailing on about... has NOT come to pass! And, of course, recall15 is conveniently not here anymore to accept the criticism he so rightly deserves.
[/COLOR] /ttiforum/images/graemlins/devil.gif

Feel free to "vent" all the criticism here!!!
:eek:
A planet with no name! RMT
:oops:
It's called NIBIRU!
Meanwhile:
quoted:

Samoa's disaster management office says up to 100 people may have been killed after giant waves hit the islands' coastlines early this morning following an 8.3-magnitude earthquake in the ocean south-west of American Samoa.

Samoa's deputy prime minister, Misa Telefoni, says islanders had no warning that a killer tsunami was barrelling towards their coastline in the early hours of this morning.

Villagers have told the ABC that they heard no warning before the deadly wave struck.
end quoted
from:


http://www.abc.net.au/news/stories/2009/09/30/2701179.htm

These events will become NORMAL...
 
with the Earthquakes "they" downgraded the Magnitude as usual, then started to Upgrade it!

cause a small ones "can not" generate a Tsunami!

ie:


<pre><font class="small">code:</font><hr> EDIS Number: EQ-20091001-158708-ID Common Alerting Protocol
Magnitude: 6.8
Mercalli scale: 8
Date-Time [UTC]: 01 October, 2009 at 01:52:32 UTC
Local Date/Time: Saturday, March 21, 2009 at 01:15 at night at epicenter
Location: 2° 34.800, 101° 46.194
Depth: 36.00 km (22.37 miles)
Region: Indonesian archipelago
Country: Indonesia
Distances: 69.98 km (43.48 miles) S of Sungaipenuh, Propinsi Jambi
Source: USGS-RSOE
Generated Tsunami: Not or no data!
Damage: Not or not data! </pre><hr>

end quoted
from:

http://hisz.rsoe.hu

/ttiforum/images/graemlins/confused.gif
 
Flu Shots!

They're giving out the Nasal Vaccinee which contianes mercury, LIVE H1N1 (although according to them inhibited.)


grimreapert.jpg


oh Really?
 
RVing The Future

Someone else I know (in another thread) who has seen the future a few years ago using remote viewing told me about:

seeing street after street, home after home with front doors open and no one around. I didn't understand it then, but I do now.

People will feel forced to pack up and leave their homes to seek out government camps to live in. However, this is a big mistake and equivalent to knocking on the gates of hell and begging to get in. No need here to talk about how bad it will get in the camps when food is gone.

Those who have food storage at home will be anxiously taking inventory of their storage each day to see what they have left. They know that every morsel they eat will bring themselves and their family one step closer to starvation, and there will be little they can do about it. They will be a victim of their own choices made back in today's time, before the power went out. A continuous, unspoken fear about being robbed or killed for what they have left will always be nagging in the back of everyone's mind.

Without the rule and enforcement of law, no place in any city will be safe. Cities will be the first areas to plunge into lawlessness. To believe that police officers will report to an extremely dangerous job without any pay to protect you is to imagine the Moon is made of green cheese. Soldiers that patrol the streets will increasingly be in harms way.

When food runs out people will return to cannibalism. This is when life gets very, very ugly. No one will be safe. Mobs of people will overpower the weak and consume them. I was recently sent a series of very gruesome photos taken of a group of about 20 people consuming a dead man, who was laid out on a board in a field. He was literally hacked into pieces with machetes and long knives. Those eating his flesh were a wide variety of ages from teenage to older folk, and some were smiling for the camera while holding up his body parts.

The distant background in the cannibalism photos showed a modern city. In the last photo only a few ribs were left. Whether staged or not, these photographs accurately show how life without electricity would be reduced to a completely barbaric existence.

Countless gruesome repeated scenes like this every day will be the ultimate end of civilization as we know it. People will kill anyone for a cup of drinkable water. An inherent, primitive drive to survive is present in all human beings and should not be underestimated. Even the most kind and loving people you know could become one of these people almost overnight when they are hungry enough.

The only possible solution for survival is to live in a very rural area, completely out of sight from the road. You will need some form of renewable power to survive, such as wind, water or solar. You will also need hydroponics to grow your own food indoors. If food is grown outdoors, animals or people can consume it or steal it during the night. This will not be hobby gardening, but serious survival gardening.

You'll need to have your own medical supplies, organic non-terminator seeds, hydroponics solution and equipment, a water well, well pump, a source of heat in winter and other basic necessities of life such as shoes and clothing, and either an outhouse or an indoor toilet and bidet. Whatever system you have to survive on, you'll need a lifetime of replacement parts and supplies. One must prepare for this assuming that no store will be available to go buy anything - ever again.

If you are thinking "chain saw" for your wood supply ­ consider how fast a chain saw uses fuel and how you won't be able to obtain any. Sawing down a 36" diameter hardwood tree is far more difficult than most people realize until they try it. It's a two-man job for two men in great physical shape, with the right saw and experience doing it.

You will be forced to defend yourself and your family using deadly force with a firearm, bow and arrow or a long knife. It's easy to shoot at paper targets, but quite different to kill a living, breathing human being begging you on their knees to spare their life. Our culture has raised us to know killing is deeply wrong.

This is the case under normal circumstances.

But killing is a decision that sooner or later you will be forced to make when the power is out and not coming back on again. It's a case of "either you or them." If you are the head of your family, your failure to make the right decision could cost everyone in your home their life. Like breathing, you'll just have to do it automatically without giving it any thought. Logic is the only way to look at it. If you do nothing and the attacker kills you and takes your food, who will be left to protect your family from starvation and harm after you're gone?

A complete collapse of society as we know it...

Will we be prepared in time? Or be knocking on the gates of a concentration camp begging to get it? Thirst, hunger and cold drives people to do things that they would never imagine themselves doing.
 
Adjuvants:in H1N1 -Swine Flu-

Adjuvants that the Shot A1N1/Swine Flue Contain:
Squalene

Squalene is an organic polymer with some antigenic epitopes which might be shared with other organic polymers acting as immunostimulators. It has been used in experimental vaccines since 1987 (Asa et aL, 2000) and it was used in the experiments vaccines given to a great number of the participants in the Gulf War. These included those who were not deployed but received the same vaccines as those who were deployed.

The adjuvant activity of non-ionic block copolymer surfactants was demonstrated when given with 2% squalene-in-water emulsion. However, this adjuvant contributed to the cascade of reactions called "Gulf War syndrome", documented in the soldiers involved in the Gulf War. The symptoms they developed included arthritis, fibromyalgia, lymphadenopathy, rashes, photosensitive rashes, malar rashes, chronic fatigue, chronic headaches, abnormal body hair loss, non-healing skin lesions, aphthous ulcers, dizziness, weakness, memory loss, seizures, mood changes, neuropsychiatric problems, anti-thyroid effects, anaemia, elevated ESR (erythrocyte sedimentation rate), systemic lupus erythematosus, multiple sclerosis, ALS (amyotrophic lateral sclerosis), Raynaud’s phenomenon, Sjorgren’s syndrome, chronic diarrhoea, night sweats and low-grade fevers.

This long list of reactions shows just how much damage is done by vaccines, particularly when potentiated by powerful "immunoenhancers" such as squalene and other adjuvants. Interestingly, vaccinators as a rule consider such problems as mysterious and/or coincidental with vaccines. Since the administration of a multitude of vaccines to the participants (and prospective participants) in the Gulf War is well-documented (in fact, veterans claim they were given many more than were even recorded), this list of observed reactions further incriminates the vaccines as causing such problems.

Aluminium:
luminium phosphate or aluminium hydroxide (alum) are the mineral compounds most commonly used as adjuvants in human vaccines. Calcium phosphate is another adjuvant that is used in many vaccines. Mineral salts of metals such as cerium nitrate, zinc sulphate, colloidal iron hydroxide and calcium chloride were observed to increase the antigenicity of’ the toxoids, but alum gave the best results.

The use of alum was applied more than 70 years ago by Glenny et al. (1926), who discovered that a suspension of alum-precipitated diphtheria toxoid had a much higher immunogenicity than the fluid toxoid. Even though a number of reports stated that alum-adjuvanted vaccines were no better than plain vaccines (Aprile and Wardlaw, 1966), the use of alum as an adjuvant is now well established. The most widely used is the antigen solution mixed with pre-formed aluminium hydroxide or aluminium phosohate under controlled conditions. Such vaccines are now called aluminium-adsorbed or aluminium-adjuvanted. However, they are difficult to manufacture in a physico-chemically reproducible way, which results in a batch-to-batch variation of the same vaccine. Also, the degree of antigen absorption to the gels of aluminium phosphate and aluminium hydroxide varies. To minimise the variation and avoid the non-reproducibility, a specific preparation of aluminium hydroxide (Alhydrogel) was chosen as the standard in 1988 (Gupta et al., 1993).

The aluminium adjuvants allow the slow release of antigen, prolonging the time for interaction between antigen and antigen-presenting cells and lymphocytes. However, in some studies, the potency of adjuvanted pertussis vaccines was more than that of the plain pertussis vaccines, while in others no effect was noted. The serum agglutinin titres, after vaccination with adjuvanted pertussis vaccines, were higher than those of the plain vaccines, with no difference in regard to protection against the disease (Butler et al., 1962). Despite these conflicting results, aluminium compounds are universally used as adjuvants for the DPT (diphtheriapertussis-tetanus) vaccine. Hypersensitivity reactions following their administration have been reported which could be attributed to a number of factors, one of which is the production of IgE along with IgG antibodies.

It was suggested that polymerased toxoids, such as the so-called glutaraldehyde-detoxifled purified tetanus and diphtheria toxins, should be used instead of aluminium compounds.
 
Time

As the other servers where destroyed durning the Pole-shift...
and if RMT will not been arrived here, you may had this info alredy:

Quoted from
AI

"Time
The Philosophy of Time
Time is a measured or measurable period, a continuum that lacks spatial dimensions. Time is of philosophical interest and is also the subject of mathematical and scientific investigation. It is a component of the measuring system used to sequence events, to compare the durations of events and the intervals between them, and to quantify the motions of objects. Time has been a major subject of religion, philosophy, and science, but defining it in a non-controversial manner applicable to all fields of study has consistently eluded the greatest scholars.

In physics as well as in other sciences, time is considered one of the few fundamental quantities. Time is used to define other quantities – such as velocity – so defining time in terms of such quantities would result in circularity of definition. An operational definition of time, wherein one says that observing a certain number of repetitions of one or another standard cyclical event (such as the passage of a free-swinging pendulum) constitutes one standard unit such as the second, is highly useful in the conduct of both advanced experiments and everyday affairs of life. The operational definition leaves aside the question whether there is something called time, apart from the counting activity just mentioned, that flows and that can be measured. Investigations of a single continuum called spacetime brings the nature of time into association with related questions into the nature of space, questions that have their roots in the works of early students of natural philosophy.

Time is a measured or measurable period
Among prominent philosophers, there are two distinct viewpoints on time. One view is that time is part of the fundamental structure of the universe, a dimension in which events occur in sequence. Time travel, in this view, becomes a possibility as other "times" persist like frames of a film strip, spread out across the time line. Sir Isaac Newton subscribed to this realist view, and hence it is sometimes referred to as Newtonian time. The opposing view is that time does not refer to any kind of "container" that events and objects "move through", nor to any entity that "flows", but that it is instead part of a fundamental intellectual structure (together with space and number) within which humans sequence and compare events. This second view, in the tradition of Gottfried Leibniz and Immanuel Kant, holds that time is neither an event nor a thing, and thus is not itself measurable nor can it be travelled.

Temporal measurement has occupied scientists and technologists, and was a prime motivation in navigation and astronomy. Periodic events and periodic motion have long served as standards for units of time. Examples include the apparent motion of the sun across the sky, the phases of the moon, the swing of a pendulum, and the beat of a heart. Currently, the international unit of time, the second, is defined in terms of radiation emitted by caesium atoms. Time is also of significant social importance, having economic value ("time is money") as well as personal value, due to an awareness of the limited time in each day and in human life spans."

end quoted
 
Temporal Measurement

Quoted from
AI
" Temporal Measurement

One thing is certain, man has always had a passion for finding better ways to measure it. When it first became important for people to measure time they didn’t have or need wristwatches or clocks. All they needed to know is when the winter is coming or when they could plant or harvest their crops. For this the ancient peoples of the earth used the regular cycles of nature.

For instance, it was known to them that the sun rises and sets in a regular and predictable way. It was also known that the moons, stars and planets have consistent and predictable motion through the heavens. And they could keep track of the passing of days with sundials and other similar instruments.

With this knowledge they could predict the coming of different seasons. There were many ancient peoples that devised very accurate calendars to keep track of time. The megalithic stones of Stonehenge in Great Britain are an example of such a calendar. And the Mayans of Central America had a calendar based on the sidereal year that was just as accurate as the calendars of today.

These early measurements of time were based on the spinning motion of the earth and its rotation around the sun. It is now known today that these motions are not constant but do vary in time.

As history progressed methods of measuring times passage became more focused on regular oscillations of such things as springs and pendulums. Today official time is measured by atomic oscillations of cesium to an accuracy of parts per billion.


Many forms of clocks and calendars
Temporal measurement, or chronometry, takes two distinct period forms: the calendar, a mathematical abstraction for calculating extensive periods of time, and the clock, a concrete mechanism that counts the ongoing passage of time.

In day-to-day life, the clock is consulted for periods less than a day, the calendar, for periods longer than a day. Increasingly, personal electronic devices display both calendars and clocks simultaneously. The number (as on a clock dial or calendar) that marks the occurrence of a specified event as to hour or date is obtained by counting from a fiducial epoch—a central reference point.

We’ve found many ways to measure time but still when we ask the simple question “what is time?” we cannot answer. This is not a new fascination with the nature of time.

As early as the fourth century St. Augustine said it very well with his famous question and answer. “What then is time? If no one asks me I know. If I wish to explain it to one that asketh I know not.” This is indeed a very powerful and sharp insight into the psychology of time and a very, very old and still unanswered question that has been asked for thousands of years.
end quoted
 
Time Control Technologies and Methods

Quoted from


AI

"-Quantum Tunneling: is an evanescent wave coupling effect that occurs in quantum mechanics. The correct wavelength combined with the proper tunneling barrier makes it possible to pass signals faster than than light, backwards in time.

-Near-Lightspeed Travel: has the ability to significantly dilate time, sending an accelerating traveler rapidly forward in time relative to those left behind before her travel. The closer to the speed of light, the further into the future the travel.

-Alcubierre Warp Drive: stretches spacetime in a wave causing the fabric of space ahead of a spacecraft to contract and the space behind it to expand. The ship can ride the wave to accelerate to high speeds and time travel.

-Faster-than-Light Travel: is a controversial subject. According to special relativity anything that could travel faster-than-light would move backward in time. As the same time, special relativity states that this would require infinite energy.

-Time-warped Fields: use energy within curvatures of spacetime around a rotating mass or energy field to generate containable and controllable fields of closed-timelike curves that can move matter and information forward or backward in time.

-Circulating Light Beams: can be created using gamma and magnetic fields to warp time. The approach can twist space that causes time to be twisted, meaning you could theoretically walk through time as you walk through space.

-Wormholes: are hypothetical areas of warped spacetime with great energy that can create tunnels through spacetime. if traversable would allow a traveler to quickly move through great distances in space and also travel through time.

-Cosmic Strings: are a hypothetical 1-dimensional (spatially) topological defect in the fabric of spacetime left over from the formation of the universe. Interaction could create fields of closed timelike curves permitting backwards time travel.

-Tipler Cylinder: uses a massive and long cylinder spinning around its longitudinal axis. The rotation creates a frame-dragging effect and fields of closed timelike curves traversable in a way to achieve subluminal time travel to the past.

-Casimer Effect: a physical force arising from a quantised field, for example between two uncharged plates. This can produce a locally mass-negative region of space-time that could stabilize a wormhole to allow faster than light travel.

end quoted
 
Re: Time Control Technologies and Methods

Also:
quoted:
Time Control Technologies and Methods is an overview presentation of basic information and a comparison of ten different approaches to controlling time. Each approach is compared based upon its potential for time travel to the future and past, transport of matter or information, and viability based upon present or near states of technology, materials and power needs.
end quoted

Link to PDF
 

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