Let’s look at frequency some more. What’s the definition in English?
Frequency is the measurement of the number of times that a repeated event occurs per unit of time.
Our unit of time is the second. Frequency is the number of events per second. A second is nine billion periods of electromagnetic radiation. A period of radiation is an electromagnetic event, caused by an electromagnetic event happening inside an atom. For an event to happen, something has to move. Some component of the caesium atom has to travel some distance. A hyperfine transition is to do with magnetic dipole movement, a flip-flop interaction between the nucleus and an electron. It’s magnetic, so it’s electromagnetic in nature. Like the electron is electromagnetic in nature. Like the photon is electromagnetic in nature. So in some simple respect, we can consider some vital component of the atom to be electromagnetic just like light.
The answer comes with a rush. It’s a form of light moving inside the atom, and it causes more light, radiation with a frequency, waves with peaks, We sit there counting them as they go by, and when we get to nine billion, we say its a second. Then we use this second to measure the speed of light. We measure the speed of light in terms of the speed of light. In caesium atoms, in hydrogen atoms, in our own atoms, in the atoms of everything. No wonder it never changes.
And so the penny drops: the interval between events is measured in terms of other events. And the interval between those events is measured in terms of other events. Until there are no events left, only intervals. And intervals are frozen timeless moments. But you need events, not frozen timeless intervals to mark out the time. The events aren’t in the time, the time is in the events. Because time is merely the measure of events, of change, measured against some other change. And for things to change, there has to be motion. You don’t need time to have motion. You need motion to have time.
You don’t need regular atomic motion to mark out time. Any regular motion will do. Yes, we counted nine billion oscillations and called it second. One, two, three… nine billion. But you don’t have to count microwave wavepeaks emitted by a caesium atom. You could count beans in a bucket. Ping, ping, ping, chuck them in, regular as clockwork.
You’re sitting there counting beans into the bucket, ping, ping, ping, regular as clockwork. Now, what is the direction of time? The only direction that is actually there, is the direction of the beans you’re throwing, and that direction is the direction of motion through space. A fuller bucket is not the direction of time. More beans is not the direction of time. The direction of time is the direction of your counting, and I could have asked you to count the beans out of the bucket. There is no real direction. It’s as imaginary as the direction you take when you count along the set of integers.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 →
It’s imaginary, so you cannot actually point in this direction. Nor can an arrow. There is no Arrow of Beans, so there is no Arrow of Time. And since there’s no direction, there’s no direction you can possibly travel in. And since you can’t travel, you can’t travel a length, and a length can’t pass you by. It’s all abstraction, a false concept rooted in the language we use to think. Yet we never ever think about what the words actually mean. Instead we say the clock is running slow as if a clock is an athlete. We say the day went quickly but it didn’t go anywhere. We say years pass, but they don’t go by like buses.
The only directions that are there, are the directions of the spatial motions that make the events that we use to measure the intervals between the other events. What’s there is the motion of light, the motion of atoms, and the motion of clocks, buses, and rivers. What’s there is the motion of the earth, and the sun, moon, and stars. And these motions are being counted, incremented, added up. We count regular atomic motion to use as a ratio against some other motion, be it of light, clocks, or buses. All of these things have motion, both internal motion and travelling motion. And all those motions are real, with real directions in space. But the time direction isn’t real. It’s as imaginary as a trip to nine billion.