In the gorrilla cage a man was alone

And the gorilla had a uniform and stood

He kept his rifle by his side as he saluted

And he never let a muscle down

For his silence was words.
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Angles bring us the peace

Return the sacred

Renewed for changes
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The life is kind

Through a house of dreams

Darling looks with singing swans

It matters and you are

Lifting the window

I can recall those memories

What you know is true

Water remembers it knows

Troubles disappear

So very strange
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Making money is really good?

If you answered yes you are like the many make up the most party.

So pull up a chair grab your self a computer and prepare for lift off.

As you chase the million dollars get a good feeling.

That is that you are now rich and happy!
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When sexual thoughts happen use the following puritan skills to think pure again:

1.  Breathe rapidly till you pass out

2.  Engage in deep philosophy

3.  Join a science fiction book club

4.  Watch sponge Bob

5.  Get some expert spiritual advise from a hipster

6.  Get a George W fan poster to stare at

7.  Jump up and down

8.  Stick your head in a refrigerator

9.  Become competitive at bingo

10.  Pick someone's nose

If none of these work try becoming all ten!
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UPLIFTINGTHOUGHTS.ORG WILL ROCK YOU!!!


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In case of emergency flush your toilet and put all your bad fun thoughts into the water and then flush twice if needed then apply mint soap to the rim of the toilet and then apply a power too to the drain pipe while doing kitran
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So the eyes

Looking out to the horizon

Waves rippling from afar

Twinkling in sapphire

The wind takes me

It is a genie

Come to free me

In the silence I rise

Birds take flight

I am flashing with coconuts

Songs bounce along

The ropes undone

Taking nothing for nothing

It has a nice ring

Ivy runs through avenues

Hands envelope attitudes

Secrets saying elude

First splash in radiance

Tries the gloves of patience

Raving about Ravens

Trying to say hello.
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The information economy is just one of the new changes in America.

We as a nation seem to be getting a bit gutsy and I fear that the consequences is that product capitalism will decline so much that our main products will be fancy yoga and fancy hair cuts.  Definitely not a formula for a great nation, but a nation with great hair cuts and flexible joints.
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Imagine a cloud

The thoughts of you

The gardens expand

Many new buds

Love is remembered

In the other world

Eyes light up

Fresh in strange violence

Dice in quicksand roll one's

The emotions fired correction

People were not pretending

And the stage moved suddenly

I could see the landscape

Nature was winning
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I'm moved

It was a very moving experience

The way she moved me

Like a jog

Or a bee bee gun

Through the solar plexus


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Does gravity create reality? A shocking path to a theory of everything A rewrite of quantum mechanics that includes the force of gravity could finally achieve one of physicists’ biggest goals and reveal the ultimate fuzziness of time By Zack Savitsky 25 May 2026 ES Leer en Español New Scientist. Science news and long reads from expert journalists, covering developments in science, technology, health and the environment on the website and the magazine. Ryan Wills Sometimes, you work tirelessly on a problem, only to realise you have been going about it all backwards. Imagine trying to fit a massive antique piano through a tiny doorway. You have tried everything – rotating it, removing the legs, forceful shoving – but you just can’t get it to fit. Eventually, you realise it is easier to construct a room to house the piano where it already sits. Now, some physicists are grappling with a similar rethink. For decades, the accepted route to an ultimate theory of everything has involved taking our best theory of gravity and squeezing it into the frame of quantum mechanics. Given that quantum theory is wildly successful in describing the other three of the four fundamental forces of nature, it is an understandable approach. Yet, almost a century later, scientists still haven’t managed to make gravity fit. That’s why a few mavericks have championed an alternative strategy. They suggest that tweaking the equations of quantum mechanics – constructing a new room for gravity – helps explain how the strange world of particles gives rise to our everyday reality. Advertisement Various experimental avenues are opening up to probe this approach, involving everything from levitating diamonds and glowing metals to swinging pendulums and ticking clocks. The tests promise to shine a light on how the quantum world operates and guide the search for a more complete understanding of the universe. “This is like going into the open ocean: we have no clue where to go,” says Angelo Bassi, a physicist at the University of Trieste in Italy. “But maybe … by going in the wrong direction, we’ll discover the right thing.” Read more We've discovered a door to a hidden part of reality – what's inside? The world as we know it is definite. Your books rest solidly on their shelf, your clock ticks steadily forward and your cat is demonstrably alive. In the realm of atoms, however, nothing is certain. Quantum mechanics allows us to describe certain properties of particles, like their position, only in terms of likelihood. You can predict – with great success – the odds of finding a particle in one of many places, but where it will be observed in a given test is completely unknowable. Before that measurement happens, the object exists in a wave-like blur of all those possibilities at once, which we describe mathematically with something called a wave function. Subscriber-only newsletter Sign up to Lost in Space-Time Untangle mind-bending physics, maths and the weirdness of reality with our monthly, special-guest-written newsletter. Sign up to newsletter New Scientist. Science news and long reads from expert journalists, covering developments in science, technology, health and the environment on the website and the magazine. This leaves us with two big conundrums that lie at the heart of quantum theory. For one, it is unclear how and when the fuzzy quantum world gives rise to classical concreteness. The other problem is that this probabilistic description clashes with Albert Einstein’s classical understanding of gravity. Efforts to recast Einstein’s work on gravity into the language of forces and particles have resulted in constructions such as string theory that are cumbersome and practically untestable. A long-standing assumption has been that, deep down, everything is quantum. But a century after the inception of quantum mechanics, physicists are still struggling to make a cohesive story out of it. “There must be something else going on, and we have to understand what,” says Bassi. “The important step is to push quantum mechanics to its limits.” One route to finding these limits involves one of the many oddities of quantum mechanics: the principle of superposition. Scientists today routinely put a single particle into a mixed state of being in two distinct locations, a trick they can verify with interference patterns from those interacting possibilities. But once they measure where the particle is, it collapses into one definitive state: either left or right, say. There are many possible explanations of what happens when a measurement occurs – as evidenced by the variety of interpretations of quantum mechanics. The many-worlds interpretation says that each possible scenario plays out in a different branch of reality, while the Copenhagen interpretation says, essentially, to trust the maths. A skydiver, skydiving Some physicists want to adapt quantum mechanics to include the classical force of gravity Hans Berggren/Getty Images Another group of explanations searches for a physical solution. In the 1980s, physicists Giancarlo Ghirardi, Alberto Rimini and Tullio Weber proposed that some invisible process was tampering with quantum waves, causing them to suddenly collapse. In the following years, physicist Lajos Diósi at the Wigner Research Centre for Physics in Hungary and University of Oxford mathematician Roger Penrose proposed that gravity could be a culprit for this mysterious process. Essentially, the Diósi-Penrose model argues that, in the battle between quantum and gravity, quantum cracks first. The basic premise the pair set out was that putting a large mass into a superposition would force space-time to curve in two different ways – something it cannot permit. They proposed that the integrity of space-time prevails and causes the quantum waves to collapse. If this is the case, superpositions would have a lifetime that is inversely proportional to the square of their mass. Quantum objects could live in a superposition for very long periods of time, but the larger the object was, the faster it would collapse. This would explain why we never see larger objects in superposition – because their substantial gravitational tug would instantly force a collapse. It also tackles the thorny problem of measurement, because any device large enough to detect and relay information about a quantum system would become part of that system and disturb it gravitationally. This idea moved the discussion away from merely interpreting quantum theory and instead towards revising it.