Albert Einstein's special theory of reality is the heart of time travel. It was published by a German science magazine in 1905 titled on the dynamics of moving bodies on a light speed scale. Basically, it told it's readers the faster we move the slower we will observe the environment's time around us slow down.
How ever as Einstein put if you sat on a very prey woman's lap for a minute will seem to be over before you know it and waiting to get of a hot stove even if for a few seconds is a long time. Another example if you counted every second of a second hand of a clock move every division full circle will be the longest minute you'll ever sit though. Every second becomes longer and longer. By the time the last fifteen you'll be suppressed how you never noticed until then how long a second can be specially every second in the last five. Anticipation can slow ones perception of the environment's time right down to crawl.
Other examples of our biological perception are stories of individuals explaining when they saw their inevitable deaths coming how they were amazed how everything went in slow motion. It appears when we freeze in panic the environment's time seems to run slow. When we panic our brain must seem to speed up faster than the environments second. So operating on the principle if we don't panic it our biological brain seems to apply Einstein's theory of relativity to perceive the environment in slow motion. It is most likely to give us the sensation we have time to think of a course of action.
This can be applied to threats of bullying coming. If we don't panic we seem to have the perception of time on our side to help us. Not panicking as a technique to slow time seems to have a galvanizing effect we can think more clearly giving us a lot more confidence we can think faster on our feet. Under certain circumstances our minds can make the environment's time seem slower or faster despite physics demands the environment's time is constant.
A worse state of affairs when unconscious. A case in point. A person knocked out has no knowledge of the passing of the environments time. On what level our brain still functions keeping the body alive I cannot say. but what we all do know when our conscious level is down there is no perception. With all this hype about what's inside a black hole I guess would be the nearest description of what it would be like in there fully conscious. Waking from a long comma spell the persons only recollection when the conscious part is active again like the time deep inside it. If we do the math's there is well over three million seconds in a year every second of activity crammed into a single moment.
The physics s centered round light traveling a distance of just under three hundred thousand kilometers in a second. Note it is a distance by the time we say "One thousand and one" what is a light second. In the current environment constant theoretically we should never be able to catch up with it. We'd think no matter how fast we travel will always be ahead of us by that distance every second even. According to Einstein's special theory though it is a constant and if we traveled at light speed we should be squeezed right up against it.
Everything is a subjective point of view between between our point of view and it's point of view of the universe. If we are at light speed we'd be in parallel with it. What would we observe of the universe? We'd think because we are traveling in parallel with light would likely look stationary while the universe would appear to travel at light speed. We would have sped up in time three hundred thousand times faster than the environment second.
Mathematics tells us if we take the reciprocal of light speed ( the minus value three hundred thousandth ) means the universe would appear to travel three hundred thousand seconds for light to travel the same distance we normal observe light speed in a second. If we do the math's three kilometers per second slow or three hundred thousand seconds is almost a long weekend. In other words every environment second is stretched a long weekend of time.
The nature of light in the point of view of particles are called photons. As stars don't reflect light they are the origin. It is manufactured by a processes of nuclear fusion. Gravity is the heart of the processes. It is so intense hydrogen atoms that have one core particle called a proton with only one orbiting particle called an electron is crushed into the orbit of neighboring atoms forming two electron hydrogen atoms called helium atoms. In the transition a burst of energy in the form of a photon our eyes are sensitive to is injected out into space. It is the same bright flash of a nuclear bomb called fission and supper novae..
From a wave point of wave point of view photons accelerate and decelerate millions of times a second. The masses wave in waving sheet covering the entire universe every second. The resulting wavelength of each wave of the sunlight we see from the sun is less less the thickness of a news paper sheet. (A micrometer 0.000001 of a meter).
Quantum physics tells us each photon disappears and reappears on a Planck scale. A Planck scale is a Planck constant, forty naughts on the "left" of 6626 of a meter that in a second called a quantum leap. The reciprocal equals the positive value same number on the "right" of the same naughts a total of a thirty four digit number in this case mass.( The inward gravitational force of gravity in kilograms. If we do the math's 6626 thirty seven naught in kilotons). In the minus value the distance across a gravitational filed in the center of a black hole called a singularity. In other words If we take that as a specification value a gravitational filed of 6626 thirty four digit number kilograms heavy the minus value diameter in it in meters.
It turns out mathematics projects a Planck constant is the maximum of the universe. The number cannot be any larger than a thirty four digit fraction of a second, and a meter and the reciprocal in the positive value for mass.
Operating on the principle if a Planck constant in the minis scale math's projects the positive value tells us nothing in the universe "should" be as heavy. According to the expanding universe though there seems to be an energy over coming the combined weight of the gravitational field of the whole universe expressed as an invisible energy expressed as dark energy. Inversely according to Isaac Newton mass is needed for gravity to hold stars and galaxies together.
However there doesn't seem to be enough in the universe to do that. There must be some extra or invisible amount expressed as dark matter. A theory put forward fifty years ago a particle called a Higgs Boson was predicted recently thought to have just discovered accelerating particles of the atom just under light speed would account for most of the dark mass. However it is believed if we are bumped right up against it we travel though time where it is compressed up against it we are time traveling.
When we time travel we are faster than the environment's second that must have a consequence on the wavelengths of light. As we accelerate light's wavelength should get longer and longer for every second we travel.
The light we observe is just a tiny part of the overall radiation spewing from the combined efforts of every star and galaxy of the universe. The clear sunlight we observe from the sun is just one of many subject to being stretched and shrink. When the clear light wavelength changes we get color, all less than a micrometer every second. The reciprocal is the frequency in that time, standard metric system prefix Mega for a million waves every second in called Hertz. Some of these wavelength's are as much as Gaga- a thousand million every second in the nano- range, a thousand million and pico in the billionths of a second respectively.
The longest wavelength our eyes can detect is red ( about a few hundred nanometers that is less than a micrometer) and the shortest violet (close to a purple blue ) less than a "few nanometers". If a wavelength falls below the red we see disappears into what we call inferred red only inferred cameras can see expressed as inferred shift. A freshly solidified lava flow for example is invisible to our our eyes but inferred cameras can pick up the heat radiating off it. So to a freshly gone out camp fire patch. Inferred cameras can see anything with a beating heart in the middle of a dark night expressed as heat radiation from bodies. When we press a button of our remote control units an invisible inferred beam beams from the unit operating our entertainment equipment inferred cameras will pick up.
Wavelengths longer than inferred, (still within a micrometer range every second ), radio and television, telecommunication, internet, to radar transition signals known as radio waves. If we had x ray type eyes we would see our TV aerials bathed in incoming waves of the TV station signals. We would observe street poles and wires as well as radio masts and cell phone towers radiating circular wave upon wave spreading outwards. The mains is a alternating electric current alternating back and forth sixty times a second producing radio waves sometimes seen as video interference in analogue TV signals. The reciprocal (one dived sixty ) is a wavelength of sixteen millimeters every second ( 60Hz ). If we had x-ray eyes we would see the electrical waves waving wave after wave from every power line and electrical device.
Cosmic radio waves are longer believed to be the occasional, spit, hiss, pop, crackle and radio static and video noise we see and hear in analogue TV signals and AM radios, believed to be the left over remains of the so called big bang that has supposed to have created the universe a few millimeters to as much as a kilometer long.
The other end of the scale wavelengths shorter than violet disappear into the ultra violet light ( UV and UVA ) rays that tan our bodies in the summer months. Some animal's visual world is a violet color cast we don't see. The wavelength are about the width of our body cells.
Even shorter are X-rays and the ultimate high frequency wavelengths as short as a few Pico-meters called gamma rays. These are so high in frequency is a liquid plasma millions of digress centigrade produce in the heart of stars and nuclear explosions. It was once theorized there was no limit how low or high the frequencies went. The problem was an ordinary camp fire let a lava flow would have produce an infinite amount of radiation incinerating the environment. The Pico-meter is the cosmic gamma rays the absolute shortest wavelength possible. The kilometer long radio wave the longest.
No radiation can be any more. So if we time travel we would be at a different rate of time than the environment's second thus the electromagnetic radiation of the universe too. Radiation is not accelerating. It travels at a maximum speed limit of light we see which is a constant. They can't go any faster.
Imagine if infinite velocity was possible. Velocity is not a word I'd choose because it applies a constant which means it is not accelerating. A more appropriate word is infinite acceleration. But even here is not really a term I'd use either. Imagine there was no limit to how far the distance light could travel for a moment.
Lets assume ten times the distance every second. By the end of the first environment second light would be a distance of a meter. By the end of the second ten meters. And so by the end of the third second would be a hundred meters. By the end of the fourth a kilometer since there is a thousand meters in a kilometer.
Still accelerating ten times the distance by the end of the fifth second would be ten kilometers. By the end of the sixth a hundred kilometers. And so by the end of the seventh a thousand kilometers.
Still accelerating ten times the distance every second by the end of the end of eight environment seconds would be ten thousand kilometers. By nine seconds a hundred thousand. By this point light has accelerated beyond three hundred thousand to the end of ten seconds a million kilometers.
By the end of eleven seconds ten million. By the end of twelve a hundred million. And so by the end of thirteen seconds a thousand million kilometers. By the end of fourteen a billion kilometers.
By the end of a quarter minute light would be ten billion kilometers distance. Imagine the kilometers ten distance every second in half a minute let a lone in every second of a whole minute. Imagine the projection math's would predict adding up every second of an hour, a day, a week, a month, in a year, even in a century every second ten that was times the distance.
If we take into account of all the seconds of the extra day at the end of every February every fourth leap year, ten times the distance every second let a lone millennia (a thousand years), a billion years even trillions of centuries and beyond without no end to the acceleration.
Clearly an infinite acceleration is not practical use not even for light. So Light is restricted to a distance of three hundred thousand kilometers every second. It can't go any faster. It is a maximum distance speed limit inside a second.
If light operates on this principle if we travel a kilometer an hour light is a distance of three hundred thousand kilometers ahead of us every second. Even if we travel at light speed light will still be a distance of three hundred thousand kilometers ahead of us every second. Even if we travel billions of trillions of kilometers per second light would still be exactly a distance of three hundred thousand kilometers ahead of us in every second. No mater how fast we go we can never catch up with that distance because of that distance ahead of us every second.
On the other hand if light is a constant we should be able to catch up with ;light speed but we would be coming up ageist it's maximum speed limit. We be compressing time to fit in the parameters of the closing gap.
It's like chasing another vehicle both at our their maximum speed limits. No mater the peddle to the mettle the car in front will always remain at a fixed distance ahead of us every second. The sunlight we see in real time had left the sun eight minutes ago. As far as light is concerned earth is eight minutes into the future. We are observing light as the sun was eight minutes ago every second.
Normally we'd observe the second hand of clocks move a hole circle while the other two hands appear frozen in time. When the second hand completes a full circle the minute had had only moved a division. And so too, when the minute hand moved a full circle the hour hand had only moved a division. Every twelve midnight is a calendar date change. The hour hand completes two full circles one for a.m. and one for p.m. If we do the math's on this adding up all the seconds comes two eighty six thousand four hundred. The reciprocal tells us every second is eighty six thousand eight hundredth of a day.
During the course of a day only the second hand appears moving while the other hands appear frozen at any give moment. The minute hand is to slow to observe any significant movement let a lone the hour hand at any given moment in time. If we do the math's on this, all the seconds in a minute tells us every minute is sixty times as slow as a second and every hour three thousand four hundred.
The clock hands tell us we are traveling though time eighty six thousand four hundred times as fast as every twelve midnight cycle. This is because the faster we go the more time slows down in this case at a constant eighty six thousand four hundred.
If we travel any faster the every twelve midnight cycle we would observe it proportionally slower than normal. Lets say for argument sake we observe the second hand of a clock slowed down twice as slow. We would be traveling twice as fast as the environment second. We would view the environment's second as two seconds slower. From the environment's point of view we would appear to be twice as fast. It would seem two seconds ahead into the future every second in every twelve midnight cycle every week, month, or years.
We'd observe the mains lighting throb from minimum to maximum brightness twice a second and radiating a different color. This is because the faster we travel though the environments time the longer the wavelengths will appear to be. Not only that, the dusks, nights, dawns and days would appear twice as long. The hour hand of a clock would take twice as long to complete a twelve midnight to twelve midnight sweep. You do the math's.
Traveling the environments second twice as fast results in another curious observation predicted in Einstein special theory. I'm talking here of a three dimensional distorted environment stretched to fit into the perimeter of the observed time scale difference. Traffic and the building in streets would look red and in a distorted budge in a three a three dimensional world.
All the normal cool colors like the greens and blues would appear to change into the warmer brown colors because we are seeing the green and blue wavelengths twice as fast as normal. The mains for example would appear thirty hertz every second or sixty every two seconds. Radio transition signals would would be lowered to twice as slow as normal not to mention Ultra violet light. The faster we go the longer the radio transition wavelengths. (Or the lower the frequencies)
We would be traveling twice as fast as the normal heat range of the environment. Twenty digress Normal room temperature would be appear ten degrees colder because we are traveling twice as fast as the wavelength of the heart radiation.
Imagine if we observe the second hand slowed down we'd normally observe the minute hand. Everything the latter would appear sixty times in proportion meaning from the environments point of view we will be a minute into the future every second. The mains lighting will throb from minimum to maximum brightness once a minute. We'd observe a fading down to minimum and fading back up to maximum brightness every half minute because we would be traveling in parallel with one cycle sixtieth environment second. The mains lighting is a maximum and minimum brightness sixty times faster than then the environment's second.we would be traveling at. You do the math's.
We would no longer observe the mains lighting because it is on a different time frame than us in inferred. Instead we would observe the environment bathed in the cold green and blue color cast because we are viewing the shorter wavelengths faster than normal. The faster we travel though our environment's time the longer the electromagnetic radiation wavelengths will become
From the environment's point of view we'd be a minute into the future every second in every hour day, week month or year. If we take into account of every leap year in every decade, century, Millennia, millions and billons and even every second in trillions of environment centuries. From our point of view every environment minute would be an hour. Observing us a minute into the future every second indefinitely obviously we would observe the opposite.
The same would happen if we where to observe the second hand slowed down we'd normally observe the hour hand. We'd be three thousand six hundred times faster than normal observing each wavelength that much longer from the environment's point of view an hour into the future every second.
Imagine observing the second hand slowed we'd normally observe a day a week, a month or a year let a lone a decade, a century, a millennia, millions, billions even trillions of centuries. You do the math's.
What if we observe the minute hand speed up as fast as we'd normally observe the second hand. We only need to observe the rolls of the latter reversed point of view. The environment would observe us slowed down to a minute while we observe the environment's minute pass every second.
We would be sixty times as slow as every electromagnetic wavelengths witch means a different time scale than the environment. We observe each wavelength sixty times shorter the mains lighting for example a hundred and twenty hertz. If we do the math's taking all the seconds in a minute the mains lightening ( and indeed the mains frequency ) we would observe the throbbing from minimum to maximum brightness sixty times faster than normal.
Mathematics projects we should observe the environment sped up three thousand four hundred times if we observe the hour hand sped up we'd normally observe the the second hand. It is because we are that much slower or inversely the environment's hour seems to us to pass every second. You do the math's.
By this time from the environment's point of view we'd be to slow to observe moving. We would appear to be as still as a statue. Operating on the principle math's will project we would observe each twelve midnight cycle thought each day as a second. Taking all the environment second would be eighty six thousand four hundred times as slow. We view the environment sped up reciprocally as fast.
Thus the slower we go the faster the environment would appear to us thus the slower we go the faster times goes. This is how park statues would observe the environment around them. Millennia's would pass in less than a second let a lone centuries. At such a slow pace imagine the weather changes during such long periods to us. The passing of time to park statues illustrate how we are sped up in time as we know it.
It goes without saying the birth of the earth to present time in a minute if we were had viewed the whole process millions of years pass every second. And hear we are not talking into account of the effect of the environment's electromagnetic.
Most of us believe time is slowed down by gravity if a black whole is anything to go by. If a Planck constant is true than time should not be any slower than the reciprocal of the maximum speed of light. Math's projects if we where to view the universe on a light speed scale the reciprocal of three hundred thousand kilometers in a second would be slow as three hundred thousand seconds in three hundred thousand kilometers. In other words we'd view the universe as slow as three kilometers per second because light is that distance faster than us.
Operating on the principle scientists measuring time li less than a few nanoseconds believe time on the roof of a tall sky scrapper is a few microseconds faster than at street level. This is because the top floors are further away from the center of the earth's gravity. People in the upper floors age a few microseconds faster.
Operating on the principle gravity slows time people descending to the street the aging processes is slowed in time being slowed down because they are getting closer to the center of the earth gravity. At street level the ages should be the same as they were when at street level before.
The same principle should apply when an astronaut leaves the earth's gravity for outer space. Mind you there is still the combined gravitational field of the sun and the rest of the solar system put together which means still under the influence. Considering the gravitational filed of the entire universe just how far into deep into space where there is no influence.
In 1905 one of Albert Einstein's favorite moment of thought was the inspiration a falling person doesn't feel there weight. He himself emitted it had startled him. The fact is a falling person is after all in motion. In fact anything in a gravitational field. If we drop a one kilogram of mass from the top floor of a tall sky scraper roof example the earth's gravity will snatch it to a meter in a second.
By the end of the second acceleration stops to a constant meter per second free fall velocity in a break neck straight line impacting with the street bellow. ( Anybody who loves challenging math's given the floor height of the building can work out how long it would take to hit the street bellow ). If we do the math's on this a one kilogram three point six kilometer per hour impact with the ground.
Impact with the walk testifies the free fall had energy called kinetic energy where there is quite a considerable damage to anything in the way. Mathematics points out this is a three point six kilometer per hour kilogram of force over coming air resistance. If it wasn't for the earth atmosphere a feather dropped at the same time would have fallen at the same rate as the kilogram mass The feather hasn't the mass to overcome the air resistance. The mass is light enough the slightest breeze to flitter to earth for kilometers.
The earth's gravity was the work and energy where those into challenging math's can work out the force of the damaging kinetic energy has on anything in the way and the impact the kilogram has on the walk. Einstein realized motion has a pull back force that compresses you, similar to gravity school boy knowledge as a G-force. The faster you go the more squashed you become a wild 0 to 80kmph (50mph) in less than a couple of seconds will testify pinning you back. NASA used this in training astronauts.
When a plane takes a high speed nosed dive everything not tight down will appear loose. In other words lighter. Fast enough astronaut trainees lift off the floor of the fuselage frolicking about in weightless fun. This is a fundamental result of Einstein's 1905 special theory of relativity. In other words anti gravity, Einstein expressed as motion canceling it he called a gravitational equivalence. He had the foresight to see it work in the reverse. If a aircraft ascends higher fast enough the floor will seem to press on everything harder. In other words everything is much heavier.
Boy racers favorite saying about there powerful vehicles can pull a few G's or can do the tone are testifying to the the similar pull back force of gravity in a straight line acceleration. Imagine the G's 0 to 160kmph (100mph) in a second.
It's curious to observe about light at three hundred thousand kilometer. per second believed photons having no mass we would aspect no kinetic energy. But there is a lot of energy to light where Einstein provided an answer to this.
When we vibrate a body slowly it has a minimal amount of energy. We can increases it by increasing the vibration as far as destruction. We can hold onto a low vibrating objects we can't hang onto if vibrates to fast. In other words the lower the frequency (the longer the wavelength) the lower the energy.
The shorter the wavelengths the more energy. A solar cell under intense red would hardly produce skairik of electricity. But low ultra violet light falling on it will produce a significant amount. DVD players are thick high powered red lazar beams while blue ray players are low powered thin blue lazar.
It would seem to Einstein the properties of motion was a gravitational equivalence. It was awaken in his mind visualizing trains at light speed. In those days the maximum speed limit was about 70kmph. They couldn't go any faster. No matter how fast or how much the stoker feed the fire the energy from the steam couldn't make the trains go any faster than their maximum speed limits.
The same law applies to your car. No matter the peddle to the metal at maximum speed you can't go any faster, not even with the help of gravity down hill. Record braking bicycles can't be pedaled beyond a 160kmph (100mph). The planets in our solar system aren't going any faster than their current orbital velocity or are they? There the consensus among cosmologists the universes is expanding by observing the shift of the colors of the galaxies from blue into red must be accelerating away from us.
Where is the energy going from the steam that couldn't propel the train any faster? An insight accrued to Einstein. The gravitational equivalence in the property of motion expressed as inertia governs the rate of maximum speed. Despite light having no mass does this apply to light? Maximum speed limits expressed as terminal velocity (or more appropriately terminal acceleration ) seems to be a constant of the universe from traveling specs of dust to entire galaxies but for the contradictory of the expanding universe.
There is another answer. It all depends on reality. There is something of what we see of an action though time sped up is observed slower. Take a quarry blast explosion representing a supernova explosion for example. Once again the rate of speed we observe depends on reality or the speed rate we are traveling at though time ourselves.
Lets view the second the ruble razes time slowed down we observe the environment second as an hour. Mathematics projects we would be three thousand six hundred times as fast as the normal second. Like observing the hour hand of a clock seems frozen in time every second. The explosion my look frozen but the ruble is still razing in time. It would take the all the environment's seconds in a hour to fully expand and settle. Operating on the same principle we may be observing the same effect of nebulae's in the universe. They look remarkable like the explosions of supernova frozen in time to us.
According to a Planck constant every environment second would be a Planck scale where a supernovae duration 6626 forty naughts times as long as our environment second. Anybody into challenging mathematics should be able to project the equivalent every environment second centuries long viewing supernova from earth.
Operating on the principle of time inside a black hole on a Planck scale would appear a different rate of speed to us. We are observing the holes the direction light is traveling inward. What would the universe look like looking outwards? If light is going into black hole direction, we would most likely observe a total white out like as if this page was a blank. Where we see space as a black void we'd probably observe looking at the universe from inside black holes a white void because we would be looking straight into the direction of the incoming light.
Einstein's special theory tells us any void whether black or white is an isolated system where it is impossible to tell any time or motion. Everything appears fixed. Time and motion having no meaning is only a relative circumstance whether looking outside to the universe of looking inside from the universe, to a coma.
Tuesday, June 26, 2012
Monday, June 4, 2012
What is time?
Science and sports coaches make athletes win or lose by fraction of seconds while the rest of us dismiss as an nick picking accuracy. Where do we begin measure the time in sport trails. A very good case in point with TV motor sport commentators. They announce nose to tail following distance dramas in decimals of a second.
A second is really a long time. It is the time we say "One thousand and one" the time the second hand of analogue clock moves a division. It is measured in the standard metric prefix units (mill lee) for a thousandth, micro a millionth, nano a thousand millionth and even pico for a billionth. Seventh hundred and fifty milliseconds is three quarter second, five hundred a half, three hundred a third, two hundred and fifty a quarter, a hundred and twenty five an eighth and a hundred a tenth second respectively.By that time the second hand of clocks move a division and with a bit of practice saying one thousand and one while we pace a distance we can become pretty good at judging we walk a meter in that time.
We can do the math's on this walking a meter per second adding all the second of an hour. As there is a thousand meters in a kilometer when we walk a kilometer 1 thousand 600 meters becomes 3.6kmph walking velocity.
By the time we walked a meter light in space light had traveled 299 million 792 thousand and 458 meters to be exact. As there is a thousand meters in a kilometer, just under the 300thouasnd kilometers threshold.
Albert Einstein's special theory of reality says at high speed motion we observe the environment's second stretched longer. For example the second hand of a wall clock observed moving a single division in two seconds. In other words for every one second we observe the environment two of the environment's pass respectively. To observe the environment's second twice as slow we would be traveling twice as fast as the environment's second. From the environment's point of view we would be two seconds in the future every second.
Operating on the principle if we travel though time twice as slow as the environment's second everything observed in reverse of the latter. We would observe the environment two seconds into the future every second while from the environment's point of view we'd slowed down in time twice as slow, or by two seconds for the environment's one second.
Normally the second hand of an analogue clock moves each division as the minute hand looks frozen in time. If we concentrate on every second whether an analogue or digital time piece we notice every second gets longer and longer. By the time a quarter minute had become a significant amount of time let a lone half minute. The last 5 seconds of the minute will be the longest. I bet that will be the longest minute you'll ever sit though.
When we observe the second hand move a full circle the minute hand always looked stationary despite it moved a division. On some clocks we can barely observe it move.
Despite observing the second hand moved round the face 60 full circles we never notice the minute hand moved only once. And once more by that time the stationary hour hand only moved one division. The minute and hour of these moving hands are too slow to observe moving.
If we do the math's adding up all the seconds in an hour tells us every hour is 3,600 times as slow as every second. In other words an hour long TV program is 3,600 as slow as every second in the hour. Unlike the second every minute and the hour is to slow to observe moving.
Every 12 midnight is a date change to the next calendar day. We never observe the hour hand moving the two full circles one for a.m. and repeating the cycle for p.m. The hour moves from the first second 12 midnight in the a.m. to 12 midday for one whole circle, then to the last second 12 midnight completing the p.m. circle, a total of 86 thousand 400 seconds in every date change.
The movement of light moves though time as the earth blocks the sun's light each side of the earth traveling round it. It is to slow for us to observe the changes from the pitch black of night to the bight of day. So too, in the evening. In fact even if we wait observing the sun rise from pitch black to bright daylight and vice versa. It takes practice and patient skills to observe the movement of light to change from one extreme to the other as the sun's light crosses the earth.
If we take a working week we can add up all the seconds from the first second 12 midnight Monday morning to the last second 12 midnight the following Sunday night. And we can add up the seconds of every calendar month.
If we multiply all the seconds of a day multiplied by 365 in a year we have all the seconds from the first second 12 midnight news years morning to the last 12 midnight new years eve. If we take into account of the extra day at the end of February every leap year we can add up all the seconds of a decade, a century to a millennia. (A thousand years). We can even project all the seconds in a million years a billion and even in a trillion centuries. We don't have to stop there we can go infinitely beyond.
If we known the second we were born we can work out how old we are in seconds. Being impractical even up to the minute the best we can do is work how old we are in days. (Don't forget to count all the leap years in you life up to the current day).
Never the less this does not account for the international dates between every country in the world let a lone compensating for daylight saving issues. What clocks tell you 6.a.m. in the morning in one part of the world on the other side will read anywhere between, 3, 4, 5, 6, 7, 8 or 9.p.m. respectively. There is no part of the world where the time is equally simultaneous. Even between cities inside a country can be different from a few seconds to as much as a few hours.
If we study digital clocks they show every time the second numbers become 59 the minute and hour numbers change back to a double zero when the proceeding number changes to the next number. The last second of a day is 11.59:59 (11 hours 59 minutes and 59 seconds) where the first second of the next day begins at 00:00:00 beginning the first minute.
By the time we say "One thousand and one" the second ends at 00:00:01. The next second ends at 00:00:02 and the third second ends at 00:00:03 and so on. The minute doesn't end till the seconds reach 00:00.59 where 00:01:00 begins the first minute. The Hour doesn't end till 00:59:59 in which case the next hour begins at 01:00:00 and so on where the first second of the hour ends at 01:00:01 and so on.
Every date change of each day is 86,400 times as slow as a every second. Math's projects the reciprocal of 86,400 every second is 86,00th of a day (Or 1 divide 86,400). We can not observe the minute and hour parts of the day move as quickly as every second. The minutes, hours and days are to slow to observe moving let a lone weeks, months to a year and decades.
As light travels 300,000km in a second is a light second. It is a constant in every second. As light takes just under 8 minutes to reach us from the nearest star (our sun) is 8 light minutes away from earth. If we take all the seconds in an hour multiplied by 300,000km gives the kilometers light traveled by the time an hour long TV program, a light hour. The same is true if we add up the seconds in each week, a light week away from earth. The same with each calendar month. All the second of a year times a light second gives the distance in kilometers light had traveled.
If we take into account of the extra day at the end of every February every fourth leap year we can calculate the seconds of a decade, a century, a millennia, (a thousand years) a million a billon and even trillions of centuries light traveled the universe traveling 300,000km every second.
Operating on the principle every second is the time we say "One thousand and one" sports coaches and science win or lose our sports heroes by fractions of using the standard metric prefix system a microsecond is a thousandth of a millisecond projecting a millionth second (0.000001s). A nano second is a thousandth of a microsecond projecting a thousand millionth second.(0.000000000001s), and a Terasecond 15 decimal zeros.
Theoretically a fraction of a second can be any number of decimal zeros you like, 99, thousands, millions, billons, even trillions of decimal zeros tiny. There can be no limit to the number of zeros. The only limit is us.
Inversely reciprocals are essentially the same number of decimal places but positive. For example the 3 zeros of 0.001 second on the right of the 1 making it a thousand seconds. It tells us reciprocals are every light second. For example is 31 million 536 thousand 400 millionth of a year is a second when we add up all the seconds of a year relatively speaking only 9 decimal places both minus and plus.
So if a light second is a distance of just under 300,000km in a second 1km is the distance light travels correspondingly the same just 300,00th of a second. Mathematics projects 1 dived 300,000 as decimal 0.0000033 (or 3 microseconds 3kkmph).
Light is made up of particles called photons vigorous with energy giving it it's wave like characteristics. According to classical physicist each photon accelerates to a peak velocity, slows down to a stop to reverses direction reaccelerates to a peak velocity slows down and stops to reverse direction repeating the cycle at a frequency of 405 to 790 THz. Tera hertz, Tera from the standard metric prefix system for 15 digit numbers in this case 4 0 5 with 12 zeros to 7 9 with 13 zeros cycles per second.
Scientific notation for such large numbers as these are written in decimal places just to the right of 10, one times ten 15 times. So for theses figures will be 4 point 0 5 times to the 15 and 7 point 9 times 10 to the 15. (4.5 x 1015 & 7.9 x 1015 ) per second respectively. The reciprocals point out the wavelength across the distance of the cycle is 4 point 0 5 times ten to the "minus" 10 to the 15 and 7.9 x 15 to the minus 1015 (4.05 x 10-15 & 7.9 x 10-15) of a meter. Math's points out minus the 6 zeros of a a micrometer unit gives us 4.05 x 10-9 and 7.9 x 10-9 of a micrometer. Note typical school rulers measure the thickness of a news paper page 1 micrometer 10-6 of a meter.
According to quantum physics photons are supposed to jump though time no more than a distance of 6.26 x 10-34th of a meter ( or 6.26 x 10-28th of a micrometer) called a Planck length as 6.26 x 10-34th of a second called a Planck second thus the smallest unit of time. Thus a quantum leap is a Planck distance in a Planck second. The reciprocal tells us the frequency in a second is 6.26 x 1034 Planck length and seconds. This quantum leap explains the classical physics link of the wavelength of one cycle of light per second.
If we were to travel at light speed the universe would observe us traveling the speed of light being 300,000 times faster. In effect from our point of view we would observe traveling in parallel with light speed. We would observe the universe the reciprocal, the distance of 300,000km of the universe slowed down to 300,000 seconds. If we do the math's on this works out to 3km/s. In other words sub light speed view point of the speed of light is 300,000km/s while a light speed point of view is the reciprocal where the universe is 3km/s respectively.
Math's points out going by the diameter of the earth light would travel just under 7 times round the entire circumference in a second, in other words by the time we say "One thousand and one." Multiplying 6.26 x 1034 by 7 gives does not give the frequency of the Planck length and seconds because 7 times in a light second.
If we measure a glob of the earth that is to scale of the earth's circumference with a piece of string and opened it out to a straight line and measure that times the time light travels round the earth in a second will give you the distance light travels in a straight line in a second. Thus the diameter of the earth times 7 is roughly the distance of a light second.
If we were to hug a few meters above sea level at light speed we would observe the environment's time as slow as the reciprocal of light speed. From our point of view every environment second will be 300,000 seconds. If we do the math's on this about the equivalent of a long weekend would pass for us for every environment second.
From the environment's point of view we would be 6 times close to 7 times round the world in the future every second. We on the other hand would observe every second appear as long as a long week end in every. The resulting stretch of the environment's second we would observe a number of environment changes.
First we would be traveling so fast we would be able to observe the second hand of a clock slowed down to equal moving a long weekend while the environment observes us 7 times round the world in a second if we could survive the inertia at that velocity.
Inertia is the property of motion expressed in Isaac Newton's laws of force and motion. According to Albert Einstein the inertia is so great at light speed the inertia would force the energy of light speed to crush and pulverize anything to atoms the equivalent of a force of gravity we express today as G-force. Think of the kilograms of weight we feel pulling us back into our seats in a straight line powerful muscle car acceleration of 0 to 80kmp (50mph) in less than a few seconds.
Einstein's famous e equals m c squared formulae tells us the pressure of the inertia on a piece of milligram of mater traveling on a light speed scale would be so great would incinerated to pure heat called plasma in less than a second.
There will be changes of the environment's dimensions. The environment would look like it's stretched way-way out of proportion as we know it at sub light speed, due to the stretched second. It's a bit like the aspect ratio of a wide screen TV stretching a standard square TV picture to fit the dimensions.
Not only that because we are traveling in parallel with the mains lighting frequency (an alternating current oscillating back and forth though the lighting sources ) alters the color cast of the environment from the pure white of florescent sources to the color of the ordinary off yellow color cast of common lamp bulbs coloring that environment at sub light speed. Not only the mains lighting but nature's coloring as well. The cool greens and blues would become the hot yellow and red colors.
Red light is the longest wavelength we can see and a purple blue (violet) is the shortest on a sub light speed scale. In other words we should observe the lowering of the cosmos electromagnetic radiation frequencies resulting in the cold blues and greens red shifted due to mowing faster than than the sub light speed second.
Math's tells us light speed is so fast it will calculate we should not be able to see any color at all because even the wavelength of violet is shifted long enough to be inferred wavelengths we can't see. The frequencies would be so low inferred cameras traveling on a light speed scale would be struggling to detect.
In fact math's projects we should be traveling in parallel with the supper high frequency (or supper short wavelengths ) of the cosmic radiation spewing from the sun thus observe them at the lower frequency colors we can observe.
Light speed is a fixed constant. We would be a constant velocity in a constant future every second not accelerating into the future every second. We should observe every second in every environment hour constant day and night, for weeks on end, month's even into years, decades, centuries, millennia, millions and billions years even trillions of environmental centuries every second equal to a long week end. How boring just to observe the colorful cosmic radiation.
On the other hand the environment would see us close to 7 times round the world in the future every second for an equal amount of time every second.
In open space despite the zero resistance of a vacuum light cannot go any faster. It is at it's maximum speed limit. Therefore we are observing the environment's time at it's slowest. We cannot observe it move any slower than a long week end per second. The environment's time appears stopped because it is to slow to observe moving because every environment second is as long as a long weekend.
If we were to view the second hand as slow as we normally observe the minute hand we would be a very slow 60 times faster than a sub light speed second to light speed standards.
From out point of view we would observe the reciprocal ( every 60th sub light speed second ) as a second. Theoretically we would be traveling in parallel with the mains alternating current frequency.
Our power is made up of the outer orbiting particles of the atom called electrons oscillating back and forth 60 times in a second we normally view as a steady light like torch light. But traveling on a minute faster than the sub light speed scale we would be traveling in parallel with the mains frequency. Theoretically we would view all the mains lighting throb from minim to maximum brightness once every second. In other words we would be viewing 60Hz as 1Hz every environment second. We would observe office workers frozen in time but things like electric fans that seem to be laboring for lack of power testimony of moving though time.
And what if we observe of the mains lighting if we were traveling though time an hour faster than sub light speed second? Math's projects we should observe the main frequency We'd view the mains lighting throb from minimum to maximum brightness once every minute. In other words a minute per cycle frequency. Not only that, but everything else in the environment would be changed every minute.
A second is really a long time. It is the time we say "One thousand and one" the time the second hand of analogue clock moves a division. It is measured in the standard metric prefix units (mill lee) for a thousandth, micro a millionth, nano a thousand millionth and even pico for a billionth. Seventh hundred and fifty milliseconds is three quarter second, five hundred a half, three hundred a third, two hundred and fifty a quarter, a hundred and twenty five an eighth and a hundred a tenth second respectively.By that time the second hand of clocks move a division and with a bit of practice saying one thousand and one while we pace a distance we can become pretty good at judging we walk a meter in that time.
We can do the math's on this walking a meter per second adding all the second of an hour. As there is a thousand meters in a kilometer when we walk a kilometer 1 thousand 600 meters becomes 3.6kmph walking velocity.
By the time we walked a meter light in space light had traveled 299 million 792 thousand and 458 meters to be exact. As there is a thousand meters in a kilometer, just under the 300thouasnd kilometers threshold.
Albert Einstein's special theory of reality says at high speed motion we observe the environment's second stretched longer. For example the second hand of a wall clock observed moving a single division in two seconds. In other words for every one second we observe the environment two of the environment's pass respectively. To observe the environment's second twice as slow we would be traveling twice as fast as the environment's second. From the environment's point of view we would be two seconds in the future every second.
Operating on the principle if we travel though time twice as slow as the environment's second everything observed in reverse of the latter. We would observe the environment two seconds into the future every second while from the environment's point of view we'd slowed down in time twice as slow, or by two seconds for the environment's one second.
Normally the second hand of an analogue clock moves each division as the minute hand looks frozen in time. If we concentrate on every second whether an analogue or digital time piece we notice every second gets longer and longer. By the time a quarter minute had become a significant amount of time let a lone half minute. The last 5 seconds of the minute will be the longest. I bet that will be the longest minute you'll ever sit though.
When we observe the second hand move a full circle the minute hand always looked stationary despite it moved a division. On some clocks we can barely observe it move.
Despite observing the second hand moved round the face 60 full circles we never notice the minute hand moved only once. And once more by that time the stationary hour hand only moved one division. The minute and hour of these moving hands are too slow to observe moving.
If we do the math's adding up all the seconds in an hour tells us every hour is 3,600 times as slow as every second. In other words an hour long TV program is 3,600 as slow as every second in the hour. Unlike the second every minute and the hour is to slow to observe moving.
Every 12 midnight is a date change to the next calendar day. We never observe the hour hand moving the two full circles one for a.m. and repeating the cycle for p.m. The hour moves from the first second 12 midnight in the a.m. to 12 midday for one whole circle, then to the last second 12 midnight completing the p.m. circle, a total of 86 thousand 400 seconds in every date change.
The movement of light moves though time as the earth blocks the sun's light each side of the earth traveling round it. It is to slow for us to observe the changes from the pitch black of night to the bight of day. So too, in the evening. In fact even if we wait observing the sun rise from pitch black to bright daylight and vice versa. It takes practice and patient skills to observe the movement of light to change from one extreme to the other as the sun's light crosses the earth.
If we take a working week we can add up all the seconds from the first second 12 midnight Monday morning to the last second 12 midnight the following Sunday night. And we can add up the seconds of every calendar month.
If we multiply all the seconds of a day multiplied by 365 in a year we have all the seconds from the first second 12 midnight news years morning to the last 12 midnight new years eve. If we take into account of the extra day at the end of February every leap year we can add up all the seconds of a decade, a century to a millennia. (A thousand years). We can even project all the seconds in a million years a billion and even in a trillion centuries. We don't have to stop there we can go infinitely beyond.
If we known the second we were born we can work out how old we are in seconds. Being impractical even up to the minute the best we can do is work how old we are in days. (Don't forget to count all the leap years in you life up to the current day).
Never the less this does not account for the international dates between every country in the world let a lone compensating for daylight saving issues. What clocks tell you 6.a.m. in the morning in one part of the world on the other side will read anywhere between, 3, 4, 5, 6, 7, 8 or 9.p.m. respectively. There is no part of the world where the time is equally simultaneous. Even between cities inside a country can be different from a few seconds to as much as a few hours.
If we study digital clocks they show every time the second numbers become 59 the minute and hour numbers change back to a double zero when the proceeding number changes to the next number. The last second of a day is 11.59:59 (11 hours 59 minutes and 59 seconds) where the first second of the next day begins at 00:00:00 beginning the first minute.
By the time we say "One thousand and one" the second ends at 00:00:01. The next second ends at 00:00:02 and the third second ends at 00:00:03 and so on. The minute doesn't end till the seconds reach 00:00.59 where 00:01:00 begins the first minute. The Hour doesn't end till 00:59:59 in which case the next hour begins at 01:00:00 and so on where the first second of the hour ends at 01:00:01 and so on.
Every date change of each day is 86,400 times as slow as a every second. Math's projects the reciprocal of 86,400 every second is 86,00th of a day (Or 1 divide 86,400). We can not observe the minute and hour parts of the day move as quickly as every second. The minutes, hours and days are to slow to observe moving let a lone weeks, months to a year and decades.
As light travels 300,000km in a second is a light second. It is a constant in every second. As light takes just under 8 minutes to reach us from the nearest star (our sun) is 8 light minutes away from earth. If we take all the seconds in an hour multiplied by 300,000km gives the kilometers light traveled by the time an hour long TV program, a light hour. The same is true if we add up the seconds in each week, a light week away from earth. The same with each calendar month. All the second of a year times a light second gives the distance in kilometers light had traveled.
If we take into account of the extra day at the end of every February every fourth leap year we can calculate the seconds of a decade, a century, a millennia, (a thousand years) a million a billon and even trillions of centuries light traveled the universe traveling 300,000km every second.
Operating on the principle every second is the time we say "One thousand and one" sports coaches and science win or lose our sports heroes by fractions of using the standard metric prefix system a microsecond is a thousandth of a millisecond projecting a millionth second (0.000001s). A nano second is a thousandth of a microsecond projecting a thousand millionth second.(0.000000000001s), and a Terasecond 15 decimal zeros.
Theoretically a fraction of a second can be any number of decimal zeros you like, 99, thousands, millions, billons, even trillions of decimal zeros tiny. There can be no limit to the number of zeros. The only limit is us.
Inversely reciprocals are essentially the same number of decimal places but positive. For example the 3 zeros of 0.001 second on the right of the 1 making it a thousand seconds. It tells us reciprocals are every light second. For example is 31 million 536 thousand 400 millionth of a year is a second when we add up all the seconds of a year relatively speaking only 9 decimal places both minus and plus.
So if a light second is a distance of just under 300,000km in a second 1km is the distance light travels correspondingly the same just 300,00th of a second. Mathematics projects 1 dived 300,000 as decimal 0.0000033 (or 3 microseconds 3kkmph).
Light is made up of particles called photons vigorous with energy giving it it's wave like characteristics. According to classical physicist each photon accelerates to a peak velocity, slows down to a stop to reverses direction reaccelerates to a peak velocity slows down and stops to reverse direction repeating the cycle at a frequency of 405 to 790 THz. Tera hertz, Tera from the standard metric prefix system for 15 digit numbers in this case 4 0 5 with 12 zeros to 7 9 with 13 zeros cycles per second.
Scientific notation for such large numbers as these are written in decimal places just to the right of 10, one times ten 15 times. So for theses figures will be 4 point 0 5 times to the 15 and 7 point 9 times 10 to the 15. (4.5 x 1015 & 7.9 x 1015 ) per second respectively. The reciprocals point out the wavelength across the distance of the cycle is 4 point 0 5 times ten to the "minus" 10 to the 15 and 7.9 x 15 to the minus 1015 (4.05 x 10-15 & 7.9 x 10-15) of a meter. Math's points out minus the 6 zeros of a a micrometer unit gives us 4.05 x 10-9 and 7.9 x 10-9 of a micrometer. Note typical school rulers measure the thickness of a news paper page 1 micrometer 10-6 of a meter.
According to quantum physics photons are supposed to jump though time no more than a distance of 6.26 x 10-34th of a meter ( or 6.26 x 10-28th of a micrometer) called a Planck length as 6.26 x 10-34th of a second called a Planck second thus the smallest unit of time. Thus a quantum leap is a Planck distance in a Planck second. The reciprocal tells us the frequency in a second is 6.26 x 1034 Planck length and seconds. This quantum leap explains the classical physics link of the wavelength of one cycle of light per second.
If we were to travel at light speed the universe would observe us traveling the speed of light being 300,000 times faster. In effect from our point of view we would observe traveling in parallel with light speed. We would observe the universe the reciprocal, the distance of 300,000km of the universe slowed down to 300,000 seconds. If we do the math's on this works out to 3km/s. In other words sub light speed view point of the speed of light is 300,000km/s while a light speed point of view is the reciprocal where the universe is 3km/s respectively.
Math's points out going by the diameter of the earth light would travel just under 7 times round the entire circumference in a second, in other words by the time we say "One thousand and one." Multiplying 6.26 x 1034 by 7 gives does not give the frequency of the Planck length and seconds because 7 times in a light second.
If we measure a glob of the earth that is to scale of the earth's circumference with a piece of string and opened it out to a straight line and measure that times the time light travels round the earth in a second will give you the distance light travels in a straight line in a second. Thus the diameter of the earth times 7 is roughly the distance of a light second.
If we were to hug a few meters above sea level at light speed we would observe the environment's time as slow as the reciprocal of light speed. From our point of view every environment second will be 300,000 seconds. If we do the math's on this about the equivalent of a long weekend would pass for us for every environment second.
From the environment's point of view we would be 6 times close to 7 times round the world in the future every second. We on the other hand would observe every second appear as long as a long week end in every. The resulting stretch of the environment's second we would observe a number of environment changes.
First we would be traveling so fast we would be able to observe the second hand of a clock slowed down to equal moving a long weekend while the environment observes us 7 times round the world in a second if we could survive the inertia at that velocity.
Inertia is the property of motion expressed in Isaac Newton's laws of force and motion. According to Albert Einstein the inertia is so great at light speed the inertia would force the energy of light speed to crush and pulverize anything to atoms the equivalent of a force of gravity we express today as G-force. Think of the kilograms of weight we feel pulling us back into our seats in a straight line powerful muscle car acceleration of 0 to 80kmp (50mph) in less than a few seconds.
Einstein's famous e equals m c squared formulae tells us the pressure of the inertia on a piece of milligram of mater traveling on a light speed scale would be so great would incinerated to pure heat called plasma in less than a second.
There will be changes of the environment's dimensions. The environment would look like it's stretched way-way out of proportion as we know it at sub light speed, due to the stretched second. It's a bit like the aspect ratio of a wide screen TV stretching a standard square TV picture to fit the dimensions.
Not only that because we are traveling in parallel with the mains lighting frequency (an alternating current oscillating back and forth though the lighting sources ) alters the color cast of the environment from the pure white of florescent sources to the color of the ordinary off yellow color cast of common lamp bulbs coloring that environment at sub light speed. Not only the mains lighting but nature's coloring as well. The cool greens and blues would become the hot yellow and red colors.
Red light is the longest wavelength we can see and a purple blue (violet) is the shortest on a sub light speed scale. In other words we should observe the lowering of the cosmos electromagnetic radiation frequencies resulting in the cold blues and greens red shifted due to mowing faster than than the sub light speed second.
Math's tells us light speed is so fast it will calculate we should not be able to see any color at all because even the wavelength of violet is shifted long enough to be inferred wavelengths we can't see. The frequencies would be so low inferred cameras traveling on a light speed scale would be struggling to detect.
In fact math's projects we should be traveling in parallel with the supper high frequency (or supper short wavelengths ) of the cosmic radiation spewing from the sun thus observe them at the lower frequency colors we can observe.
Light speed is a fixed constant. We would be a constant velocity in a constant future every second not accelerating into the future every second. We should observe every second in every environment hour constant day and night, for weeks on end, month's even into years, decades, centuries, millennia, millions and billions years even trillions of environmental centuries every second equal to a long week end. How boring just to observe the colorful cosmic radiation.
On the other hand the environment would see us close to 7 times round the world in the future every second for an equal amount of time every second.
In open space despite the zero resistance of a vacuum light cannot go any faster. It is at it's maximum speed limit. Therefore we are observing the environment's time at it's slowest. We cannot observe it move any slower than a long week end per second. The environment's time appears stopped because it is to slow to observe moving because every environment second is as long as a long weekend.
If we were to view the second hand as slow as we normally observe the minute hand we would be a very slow 60 times faster than a sub light speed second to light speed standards.
From out point of view we would observe the reciprocal ( every 60th sub light speed second ) as a second. Theoretically we would be traveling in parallel with the mains alternating current frequency.
Our power is made up of the outer orbiting particles of the atom called electrons oscillating back and forth 60 times in a second we normally view as a steady light like torch light. But traveling on a minute faster than the sub light speed scale we would be traveling in parallel with the mains frequency. Theoretically we would view all the mains lighting throb from minim to maximum brightness once every second. In other words we would be viewing 60Hz as 1Hz every environment second. We would observe office workers frozen in time but things like electric fans that seem to be laboring for lack of power testimony of moving though time.
And what if we observe of the mains lighting if we were traveling though time an hour faster than sub light speed second? Math's projects we should observe the main frequency We'd view the mains lighting throb from minimum to maximum brightness once every minute. In other words a minute per cycle frequency. Not only that, but everything else in the environment would be changed every minute.
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