The circumstance we don't feel the impact light slamming into us at just under 300.000km/s assumes has to be weightless. It must have no mass. In Quantum physics it quantum leaps or tunnels though space disappearing and reappearing on Planck scale. (?) A Planck scale is a Planck constant, a 43 number, 36 zeros 6626068.


Such a huge number like that is a scientific notation of 6 point 62068 times ten to the minus 43. (6626068 x 10-43), the minus value. The reciprocal tells us the same number of zeros on the right of same number in the positive value. In other words 6 point 626068 times ten to the 43 (6.626068 x 1043). Mathematics tells us one dived the minus value gives us the positive value and one divide the positive value gives us minus value. In other words are reciprocals of each other.

It was announced in 1900 by a German physicist claming a mathematical constant. matter, mass, energy, length and time come in bursts rather than infinitely smooth he called Quota. The constant is universal, in the minus value defining a Planck length, a Planck second, a Planck energy and a Planck mass while in the positive value mass on a Planck scale a 40 digit number kilotons or 43 in kilograms force of gravity. The disappearing and reappearing act is expressed as a Quantum leap, a Planck length in Planck second. Every particle, a Photon, appears and disappears in the minus value of a meter and the positive value per second.

Ever since the ancient Greets discovered the geometry of a circle mathematicians have never been able to find the end of pi. It is a never ending number. But Planck's constant ends at 43 digits conveniently doing away with infinite. That is what physicists like about Planck's constant.

Classical physics describes the universe full of radiation radiating from the trillions of galaxies quantum physics telling us operates on a Planck scale. This radiation is a back and forth oscillating motion many times per second. A pendulum swing for example accelerates and slows down to a stop at a maximum distance. It reaccelerates in the reverse direction slowing down to a stop the opposite distance repeating the cycle.

The unit of a cycle per second is Hertz describing the frequency. The mains electric power for example is a 60Hz constant. The standard metric system prefixes, Kilo for a thousand, mega for a million, giga for a thousand million and tetra for a billion familiarly seem radio and television, telecommunication and radar, internet transition, computer speed and cosmic radiation notation. (Hz, KHz, MHz, GHz, and THz respectively).

The reciprocal of the frequency (One divide the frequency value) gives the wavelength in millimeters. The mains for example is 0.01666666 (1.6 x 10-2) the minus value of a meter or 16mm. In other words, 60th second equals 16mm in 16 milliseconds. The law of mathematics tells us 60 times 16mm or 60 times 16ms equals one second.

A typical school ruler will measure the width of a typical ball point pen line a millimeter. The thickness of a typical news paper sheet is about a micrometer (a millionth) minus value of a meter and second (1 x 10-6), nano- for a thousand millionth (10-9), and pico- a billionth (10-12) and so on. In other words for every positive value, there is the minus value and for every minus value there is the positive value respectively simply by one divide the frequency or one divide the wavelength.

Quantum physics tells us the mains on a Planck scale, the osculating electrons, (the outer orbiting particles of the atom) are quantum jumping a Planck length in the minus value in the positive value times per second throughout the entire one cycle including cosmic radiation.

Visible light includes all the colors of the rainbow only a tiny fraction of the total cosmic spectrum. The longest wavelength we can see is red no longer than a little under a micrometer. The shortest is violet (a relative purple blue) the wavelength no longer than a few nanometers.

If a wavelength of the color red becomes longer it disappears into what is familiar to us as inferred only inferred cameras can see. In fact known as heat radiation. For example a inferred camera will show up a freshly solidified lava flow in the pitch black of night we don't see with the naked eye. The same is true for the radiating warmth of a freshly put out camp fire patch. Anything alive with a beating heart in a pitch blackness of dark nights inferred cameras easily see.

Still less than a micrometer are the commercial radio and television station, telecommunication, internet, and radar band transition signals. Cosmologists believe wavelengths longer than a millimeter up to a maximum of a kilometer is the dampened remains of the of the big bang that has supposed to have created the universe.

On the other end of the visible light spectrum when we observe violet's wavelength any shorter (less than a micrometer) like inferred it too becomes invisible the familiar Ultra Violet light (UV) rays from the sun that tans our bodies in the summer months. X-rays is the next shortest while the shortest of all in the nanometer scale are Gamma rays produced in the heart of stars and nuclear physics

Mathematicians had come across a problem with math's that there should be an infinite range of wavelengths. For example a molten lava flow should emit the entire range including way way beyond gamma rays. The trouble is even a small camp fire should have incinerated the world years ago expressed as the ultra violet light catastrophe. The Ultra High frequency of gamma Rays and the remains of the big bang radio waves seems to be the to extreme maximums. They cannot be any longer than a kilometer or any shorter than a picometer.

Away from a gravity source cosmic radiation travels at the speed of light. When it enterers the earth's gravity and atmosphere the velocity is slow down and the wavelengths stretched. By the time the most of it reaches the ground is UV and inferred wavelengths. Water, glass and prisms stretch and slows it down further. Solid objects stop it dead in it's tracks. It reverses direction accelerating back though the earth's atmosphere. Once clear it intermediately accelerates to light speed again all this in less than a couple of seconds.

Despite the fact there is a zero resistance in space and the cosmic radiation being weightless is at maximum momentum speed limit. It can't go any faster. In fact it travels 300,000km distance by the time say one thousand and one..

In fact saying one thousand and one as we walk we can become pretty good at judging we walk a meter in a second. If we do the math's on this we take an hour to walk a distance of 3,600 meters or 3.6km. In other words a 3.6kmph velocity.

Operating on the principle using the time we say one thousand reference the time we walk a meter the radiation had traveled a distance of 300 million meters. (Or in kilometers 300,000). Mathematics tells us the reciprocal tells us 300,000th second per meter. Operating on the principle the reciprocal tells us the cosmic radiation travels 300,00th second per meter.

In the standard metric system prefix context 3 microseconds per meter the reciprocal tells us 300 million a second. As far as a Quantum leap is concerned each leap the Planck constant in the minus value of a meter and the number of times in a second the same Planck constant in the positive value. Imagine a computer speed on a Planck scale. In terms of our current GHz, we would have 6.626068 x 1036 ( a total 36 digit number processing power). A trillion GHz processing power is only 1 x 1018. In terms of frequency Planck's constant makes a quantum leap a mind boggling faster than light speed.

Once again mathematics tells us the reciprocal tells us the radiation is 300,000 times as fast as our environment second. In other words we are viewing it at sub light speed always 300,000km distance into the future every second. In 1905 Albert Einstein's wrote a paper on the dynamics of motion on a light speed scale these days known as the special theory of reality because of the special circumstances of a unified constant motion.

0 to 80km (50mph) in a few seconds n the surface of earth is quite an impressive. But a body lunched in space will travel several tens of thousand kmph obeying Isaac Newtown's first law once set in motion (in the case of the zero resistance) will continue in that straight line motion indefinitely. This does not mean it is accelerating indefinitely. There is a maximum constant momentum speed limit. In other words a body lunched from a space station the initial acceleration is terminated to a constant momentum speed limit where it can't go any faster.

Imagine 0 to 160kmp (100mph) in a second on the surface of earth. The acceleration in space will appear to have no effect let a lone several tens of kmph. Never the less lets have a look at what happens to time when we accelerate and decelerate to a stop in a distance of 160km in a second on the surface of earth. As we take off we would be reaching 80km distance in half second and equally decelerating to a stop in another 80km distance in another half second.

As we take off we would probably observe the environment's time slowly slow down, slowly at first getting faster and faster and the environment getting narrower and narrower in volume as time slows down then appear to slowly speed back up a bit slowly at first getting faster and faster as the environment's volume gets wider and wider and stop all together when at normal time. We'd find our selves chocking and spluttering getting over the the distortion of the air we breath effect on us. We'd be a 160km away a second into the future from where we began. Environment observes would probably view us as a stretchy rubber band stretch a 160km distance snapping back to normal by the time they could say one thousand and one.

If we are to reach light speed velocity we have to accelerate from our sub light speed first. If we increase speed we are accelerating our sub light speed. Because light is a constant the distance won't change. All we'd be doing is changing a new distance light travels from our new velocity point of view. Lets see how this happens with few examples.

We would observe light speed not any further than a distance of 300,000km no matter how long the environment's time appeared to be. If we were to increase speed the radiation velocity won't change only us.

If we are to observe the minute hand of a clock speed up as fast as we normally observe the second hand the clock for example mathematics projects the clock would have to be traveling though time 60 times faster than us. Or to put it anther way, we would have to be traveling 60 times as slow as the environment second. The environment would see us as 60times as slow. In other words we would observe the environment minute every second.

The same math's applies if we observed the hour hand speed up as fast as we normally view the second hand. Doing the math's we would be 3,600 times as slow as every environment second. For every second an environment hour, we would be an hour into the future every second.

The same would apply if we view an environment day, week, month, a year, a decade, a century, a millennia (thousand years), a million, billions of years, even a trillions of centuries per second. From the environment's point of view we would be slowed down in time proportion.

This is what every park statue would observe of it's environmental time. A trillion centuries would appear a moment. If we were slow down enough stating at the supposed big bang we would observe the age of the universe 15 billion years ago, the earth formed only a few 100 million years latter. Dinosaurs roaming the earth few million the beginning of the last great ice few 100,000 years ago ending about 10,000 years, all of man's history to this day in a second.

If we are to observe the minute hand of a clock speed up as fast as we normally observe the second hand the clock for example mathematics projects the clock would have to be traveling though time 60 times faster than us. Or to put it anther way, we would have to be traveling 60 times as slow as the environment second. The environment would see us as 60times as slow. In other words we would observe the environment minute every second.

The same math's applies if we observed the hour hand speed up as fast as we normally view the second hand. Doing the math's we would be 3,600 times as slow as every environment second. For every second an environment hour, we would be an hour into the future every second.

The same would apply if we view an environment day, week, month, a year, a decade, a century, a millennia (thousand years), a million, billions of years, even a trillions of centuries per second. From the environment's point of view we would be slowed down in time proportion.

This is what every park statue would observe time. A trillion environment centuries would appear a moment of time. If we were to slow down enough we would observe the age of the universe begin under 15 billion years ago, the earth formed only a few 100 billion. Dinosaurs few million the beginning of the last great ice few 100,000 years ago ending about 10,000 years, all of man's history to this day in less than a second.

If we are to observe the minute hand of a clock speed up as fast as we normally observe the second hand the clock for example mathematics projects the clock would have to be traveling though time 60 times faster than us. Or to put it anther way, we would have to be traveling 60 times as slow as the environment second. The environment would see us as 60times as slow. In other words we would observe the environment minute every second.

The same math's applies only in reverse perspective point of view between us and the observe environment if we observed the second move as slow as we normally view the minute hand. Doing the math's we would be 60 times as fast as every environment second. Every environment second would appear to be as slow as a minute.

The same would apply if we view an environment's second as long as a day, a week, a month, a year, a decade, a century, a millennia (thousand years), a million, billions of years, even a trillions of centuries. From the environment's point of view we would be traveling in time ahead into the future proportionately.

This is what we observe of every park statue. We would observe them a couple of years of time. If we were to speed up an hour into future we would observe every environment day as appear to be an so slow it would appear a agonizingly infinite amount of time let a long a day or a week.

If we observed the second hand slowed down we'd normally observe the minute hand either the clock is 60 times as slow as the environment's second or we are 60 times as fast as the environment's second.

Because light speed is a fixed maximum constant the faster we go the closer we are to it. For example if we wanted to travel up to half light speed goal we would need to double our the current sub light speed limit. We would be twice as fast as the universe by a 150,000km/s. Mathematics puts light a 150,000km ahead of us every second the equivalent of viewing the universe travel a second slower than our normal sub light speed. In other words the universe would be viewed as slowed down 300,000km per 2 seconds. We also observe the universe seem to squashed in proportion as if squeezed to fit into half the dimension.

If we tried three quarters goal light would be 75,000km ahead of us every second or 4 seconds slower than our current sub light speed. ( The universe would appear to travel 300,000km per 4 seconds).

If we travel at light speed we'd be in parallel with it. Mathematics projects light is no longer ahead of us every second. In such a case we'd think we would view the universe travel 300,000km/s light zero ahead of us. If we rethink the characteristics of light it may not work out like that. What would we see traveling in parallel with light speed? For a start it is the entire cosmic radiation spectrum as waveform of many different wavelengths, or more appropriately Quantum jumping on a Planck scale.

Classical physics tells us each wavelength is like a pendulum swing. With a pencil tip on a stationary piece of paper will draw a straight back and forth on itself indefinitely. As soon as the paper moves (lets say by a 1cm a second) will draw a sine waveform where the laws of geometry are often applied.

When the paper is moving the sin wave is longitudinal. When not moving swing pendulum draw a representation of a standing wave. All this is academic since I had neglected the compression of the dimension not to mention the stress of light of a speed scale.