Anonymous2
The more you know
Do you agree we should celebrate that after thousands of years, science and spirituality have met?
From now, at least for the open-minded, well-educated people, they go hand in hand. Spirituality has been telling since ages that all the Universe is a vibration of energy. And here we are. We went down to the subatomic particles and bozons, and we found the quantum field too.
Everything vibrates. Let’s vibrate all together. Party time!
Oh, wait. Slow down.
First of all, give food to your quantum fishes swimming in the quantum field. It’s difficult to focus when you know your pets are starving.
What is the vibration?
Vibration is an alternating movement between two points.
Why would someone or something (except for a vibrator) move like that?
Vibration is driven by opposing forces and the momentum of the subject. The subject is moving around the equilibrium of the forces. Should it have no momentum, it stopped at the equilibrium. Its momentum, however, keeps it moving in the same direction. The more it moves in one direction, the opposing force becomes stronger, and the supporting force weakens. The subject changes direction moves to the equilibrium with increasing speed, and the process starts over.
When the vibration is spreading, we call it a wave.
It’s all around us. When you throw a stone to the water, the stone pushes down the water at the point of the impact. Since fluids are told to be incompressible (which is not true just like the 99% of the things they told you), the rest of the water elevates. That’s the initial point of the vibration. The so-called positional energy of the “rest of the water” increased. The water that’s pushed down lost some of its positional energy.
Nature likes it balanced. It also likes it messy, but let’s not switch to adult topics. So, balance happens.
Balance is achieved by eliminating the differences. That’s why the rest of the water starts to “fall” down, and the pushed down water starts to elevate. When they reach the same hight, that’s the point of the equilibrium. However, water has a mass, and mass has a momentum. The water keeps moving. At the same time, the opposing forces become stronger and stronger. At (almost) the same height as it was in the other endpoint, it turns back and then turns back again, and it would go forever if energy weren’t lost.
(No, it doesn’t get lost. The water gets warmer. And the energy that made the water warmer is lost by the stone. Its positional energy decreased.)
In a fluid, the forces won’t be vertical only. The moving water affects the water around it. Hence the vibration will spread, and you see waves spreading in circles around the point of the impact.
Sound waves spread in gases (for example, air) similarly. The opposing forces are not caused by the difference between the positional energy levels but the gas pressure levels. As the gas has a mass too, you can find where the momentum might come from. Or it may come from the fact that the gas molecules have to hit each other many times to balance out the pressure in between and around them.
If fluids were incompressible, the poor dolphins would hit their head into everything, considering they navigate with ultrasonic waves, and sound could not travel in incompressible liquid, because the pressure could not change.
There is one way sound could spread in incompressible fluids. It could do it with infinite speed. But Einstein didn’t like that, as I heard, and sound itself doesn’t seem to have infinite speed in the water. Let’s agree; fluids are compressible. We just saved the dolphins!
Vibration doesn’t have to be mechanical.
One year, more carrots grow than usual. The rabbits are happy. They eat, and they fuck. There are a lot of baby rabbits — many more than they were the last year.
More rabbits mean two things. They mean fewer carrots and more foxes. Thus the population of the rabbits starts collapsing, followed by the collapse of the fox population and the next golden age of the carrots.
See? The carrots, the rabbits, and the foxes vibrate together. Please note that the two ends of the food chain are orange while the middle is white. One day, we might figure out what it means.
People have mood swings. The reasons vary. A trivial example is the dopamine level. It goes up, and the person gets happy, motivated, and active. It goes down, and the person doesn’t want to get out of the bed to visit the therapy, and all the series seem crap.
The mood swings around the equilibrium. But why? Why can’t it just stay in permanent joy?
It can. It’s another story. But let’s say, if you were rewarded for everything the same way, you might want to keep your hands in the fire and feel the pleasure as long as you can. Correct?
That’s not the whole explanation, though, since the flame is an outside force. Vibration is caused by forces in the system, such as the positional energy levels of different parts of the water.
The mood swing of most people doesn’t have its origin in people putting their hands into the fire and removing them again and again.
However, if we accept the mood is affected by the dopamine, and its level changes with a delay and the recovery of the receptors also has a delay, then we might find a momentum behind some of the mood swings. Think about it like if the mood swings were a side effect of the lifesaver reward system that has a delay for chemical reasons (momentum).
The oscillators in the electronics generate vibration in the electric current. The opposing forces are the electrical charge difference between the electrodes of the capacitor. We don’t know why electrons don’t like to be together. Let’s skip that part now.
(Yes, they are made of subatomic particles with quantum charges, I heard that. We still don’t know why the same charges don’t like each other, so, please, skip that for now).
Where is the momentum in the oscillator coming from?
It cannot be resistance. The resistance slows down the discharge, but it won’t push it behind the equilibrium.
Electrons have little mass. It’s not their kinetic momentum either.
Then, it must be the inductor because, let’s say, it takes time to build up the electromagnetic field, and it takes it time to collapse.
I see.
And why is that? Don’t get me wrong. I never built an electromagnetic field with my bare hands. Neither I made one collapse with my hands, ever. I don’t want to understate the hard work it is. That would be rude.
I’m only wondering why it takes time because I want to understand how much time it takes and why. I swear the speed of light didn’t cross my mind at all.
Anyway, we have oscillators. The radios and computers function. The changing magnetic field generates electric flow for sure. That’s how your electric bills get generated in the power plants. You pay people for burning what you received from the Sun, and what poisons you after it’s burnt. Although you don’t want to build a power plant for yourself, and those people don’t want to do your job either, and the Sun doesn’t care. So, it’s okay.
The point is, you can build an inductor from copper wire, and move a magnet next to it, and generate electricity. I did it when I was a child. It works. So, let’s say, the buildup of the electromagnetic field is like when the river is flooding, and its collapse is like when the water flows back to the river. We have the opposing forces in the capacitor. We have the momentum in the buildup and collapse of the electromagnetic field around the inductor. We see why they vibrate.
So far, so good.
And now, tell me, where the hell the opposing forces come from when light travels in space?
Light is said to have waves. The length of the wave defines its color. Waves are vibration in motion.
On the surface of the water, the forces that make the vibration come from the positional energy difference. Positional energy is related to gravity. In the air, the forces that make sound vibrate come from the air pressure difference between regions.
When a steel spring is vibrating, you can explain it by the opposing forces that want to restore its original form (equilibrium). You can even explain why it wants to regain its shape by the structure of the atoms and the, ..., wait, I forgot to tell you that atoms can count their electrons.
In the periodic table, everyone is dreaming about becoming a noble gas one day, except for those lucky enough to be noble gases already. It’s because atoms can count their electrons, and they have the ideal concept of having 2, 8, 8, 18 electrons. Peer pressure, I suppose. All the atoms share one big dream.
Or maybe the periodic table is a hotel where the atoms live, and the rooms on the right side have a decent view of the ocean. Why not?
Can you see that we are running out of sane reasons?
Let’s go back to light. What are the points between light is vibrating?
What is vibrating?
What are the forces that cause the thing we don’t know what it is to vibrate?
In the water, the vibration spreads because the forces caused by the positional energy difference are not only vertical. The water pushes the water around it. That’s clear.
You should see it now; the wave doesn’t exist. It’s the water that’s moving.
So, tell me what the fuck is vibrating in space?
And where is the photon coming from? It’s said to have no rest mass. Hence, it has no energy, or Einstein was wrong.
Since everything is told to be energy and the photon at rest has no energy, what does it have? What is it made of?
Again. The rest photon has no energy. Everything is energy. What is the photon?
Subatomic particles are told to be energy enclosed. The enclosed energy makes up the mass. So good.
Tell me, if everything is energy, what is the thing that encloses the energy?
I repeat.
If the mass is enclosed energy, and everything is energy, then what encloses the energy?
Other energy?
If not, then what? The government? The aliens?
And why the hell would energy vibrate?
What are the opposing forces that make the energy vibrate, and where does it momentum come from?
Somewhere here, if not earlier, should be the point where you realize it’s a joke. The joke isn’t what you are reading. Science is.
It’s not that the Universe is difficult to understand.
It’s not that science doesn’t yet know everything, and it takes more time to discover.
The wave nature of light can be measured.
I never measured it, so I should not take it granted, but I built two or three radios, and they worked. That was in the age of AM stations (amplitude modulation) hence the radios were simple compared to what you would need to build today. One of them consisted only of an inductor and a tunable capacitor. It’s didn’t even have a battery or any other electric source than the antenna. Yes, it worked with super-sensitive headphones. I could switch between the stations. Thus, I believe that electromagnetic waves are waves, and they have a specific frequency because the size of the capacitor should define the frequency if we believe it takes time to build up a magnetic field.
Then, the light also can have a frequency. Why not?
It leads to paradoxes, though.
The wave doesn’t exist. It’s the medium that’s moving.
Space has no medium.
Ah, maybe it’s the quantum field!
If light travels in the quantum field, and it doesn’t travel with infinite speed, then the quantum field must be compressible.
And now, we are talking about the pressure of the quantum field. Does it make any sense?
What is compressed in the quantum field, and what is in between the things that are compressed?
Is it that difficult to understand that the Universe is intelligent, and it does it on purpose?
Why would it do it?
I mean, it could be a joke, but what’s the point? Why would the Universe torture science, or at least make fun of it?
What’s wrong with science?
Science limits imagination. Science is about nothing but telling you what you cannot do.
The Universe is imagination itself.
Don’t you think science is limiting?
If you look around, you see your computer, cell phone, headphones. Do you like them?
Science didn’t create them. The only things science ever created were the A-bomb and the H-bomb.
People like Edison created the things around you. He wasn’t a scientist. Edison didn’t sit above a sheet of paper to calculate the light bulb.
He put some material into the bulb, turn it on. It burned out in a moment again and again.
And again.
Almost everyone would have stopped doing it. He didn’t. He did it as long as he found a material and a configuration when it didn’t burn in one second but two. Then, in ten. Then, it lasted for an hour.
He knew science on a level. What he knew, even more, was what he wanted to create.
His opposite was Stephen Hawking. He spent his life on calculations that concluded in “God didn’t exist”.
Oh yeah.
I’m not sure how and why it didn’t cross his mind that if all his theories were correct in 100%, and everything happened the way he thought, then God still could have been sitting in a corner, and laughing.
You don’t need advanced skills in mathematics and physics to realize that.
The intention behind science is wonderful. It is to explore and to understand. Any intelligence would love that.
You might have these desires if you are still reading what I wrote.
But science doesn’t have to courage to understand that laws are good only as long as they serve a purpose, and when they don’t, they can be changed, and when they aren’t needed, they don’t exist.
To measure is okay.
You can understand the reality by measurement. Yes, you can.
You only have to realize the conclusion of the measurement isn’t a number or a collection of laws. The measurements conclude that the Universe is intelligent, and most of the supposed laws would only limit you.
It doesn’t mean you should stop measuring. You should always measure how much DMT you take. And if you already have the scale at hand, why not put the mushrooms on it before you eat them?
You can also measure whether the furniture of your dreams fits in your apartment or not. And if it doesn’t, you can always get another apartment.
That’s what the Universe does.
Others tell you deductive logic is wrong, and thinking or “overthinking” is wrong too.
The problem isn’t with deductive logic or thinking. The problem is with the thing that some people, for a reason I don’t know, call deductive logic and thinking.
If the Universe is intelligent, then thinking and reasoning must be great.
Your brain is a gift. Accept it.
They say the change of view is when you stop thinking about why isn’t it possible to do something, and you start thinking about why it is possible to do it.
As always, don’t believe such statements.
The change is when you stop caring, whether it is possible or not.
From now, at least for the open-minded, well-educated people, they go hand in hand. Spirituality has been telling since ages that all the Universe is a vibration of energy. And here we are. We went down to the subatomic particles and bozons, and we found the quantum field too.
Everything vibrates. Let’s vibrate all together. Party time!
Oh, wait. Slow down.
First of all, give food to your quantum fishes swimming in the quantum field. It’s difficult to focus when you know your pets are starving.
What is the vibration?
Vibration is an alternating movement between two points.
Why would someone or something (except for a vibrator) move like that?
Vibration is driven by opposing forces and the momentum of the subject. The subject is moving around the equilibrium of the forces. Should it have no momentum, it stopped at the equilibrium. Its momentum, however, keeps it moving in the same direction. The more it moves in one direction, the opposing force becomes stronger, and the supporting force weakens. The subject changes direction moves to the equilibrium with increasing speed, and the process starts over.
When the vibration is spreading, we call it a wave.
It’s all around us. When you throw a stone to the water, the stone pushes down the water at the point of the impact. Since fluids are told to be incompressible (which is not true just like the 99% of the things they told you), the rest of the water elevates. That’s the initial point of the vibration. The so-called positional energy of the “rest of the water” increased. The water that’s pushed down lost some of its positional energy.
Nature likes it balanced. It also likes it messy, but let’s not switch to adult topics. So, balance happens.
Balance is achieved by eliminating the differences. That’s why the rest of the water starts to “fall” down, and the pushed down water starts to elevate. When they reach the same hight, that’s the point of the equilibrium. However, water has a mass, and mass has a momentum. The water keeps moving. At the same time, the opposing forces become stronger and stronger. At (almost) the same height as it was in the other endpoint, it turns back and then turns back again, and it would go forever if energy weren’t lost.
(No, it doesn’t get lost. The water gets warmer. And the energy that made the water warmer is lost by the stone. Its positional energy decreased.)
In a fluid, the forces won’t be vertical only. The moving water affects the water around it. Hence the vibration will spread, and you see waves spreading in circles around the point of the impact.
Sound waves spread in gases (for example, air) similarly. The opposing forces are not caused by the difference between the positional energy levels but the gas pressure levels. As the gas has a mass too, you can find where the momentum might come from. Or it may come from the fact that the gas molecules have to hit each other many times to balance out the pressure in between and around them.
If fluids were incompressible, the poor dolphins would hit their head into everything, considering they navigate with ultrasonic waves, and sound could not travel in incompressible liquid, because the pressure could not change.
There is one way sound could spread in incompressible fluids. It could do it with infinite speed. But Einstein didn’t like that, as I heard, and sound itself doesn’t seem to have infinite speed in the water. Let’s agree; fluids are compressible. We just saved the dolphins!
Vibration doesn’t have to be mechanical.
One year, more carrots grow than usual. The rabbits are happy. They eat, and they fuck. There are a lot of baby rabbits — many more than they were the last year.
More rabbits mean two things. They mean fewer carrots and more foxes. Thus the population of the rabbits starts collapsing, followed by the collapse of the fox population and the next golden age of the carrots.
See? The carrots, the rabbits, and the foxes vibrate together. Please note that the two ends of the food chain are orange while the middle is white. One day, we might figure out what it means.
People have mood swings. The reasons vary. A trivial example is the dopamine level. It goes up, and the person gets happy, motivated, and active. It goes down, and the person doesn’t want to get out of the bed to visit the therapy, and all the series seem crap.
The mood swings around the equilibrium. But why? Why can’t it just stay in permanent joy?
It can. It’s another story. But let’s say, if you were rewarded for everything the same way, you might want to keep your hands in the fire and feel the pleasure as long as you can. Correct?
That’s not the whole explanation, though, since the flame is an outside force. Vibration is caused by forces in the system, such as the positional energy levels of different parts of the water.
The mood swing of most people doesn’t have its origin in people putting their hands into the fire and removing them again and again.
However, if we accept the mood is affected by the dopamine, and its level changes with a delay and the recovery of the receptors also has a delay, then we might find a momentum behind some of the mood swings. Think about it like if the mood swings were a side effect of the lifesaver reward system that has a delay for chemical reasons (momentum).
The oscillators in the electronics generate vibration in the electric current. The opposing forces are the electrical charge difference between the electrodes of the capacitor. We don’t know why electrons don’t like to be together. Let’s skip that part now.
(Yes, they are made of subatomic particles with quantum charges, I heard that. We still don’t know why the same charges don’t like each other, so, please, skip that for now).
Where is the momentum in the oscillator coming from?
It cannot be resistance. The resistance slows down the discharge, but it won’t push it behind the equilibrium.
Electrons have little mass. It’s not their kinetic momentum either.
Then, it must be the inductor because, let’s say, it takes time to build up the electromagnetic field, and it takes it time to collapse.
I see.
And why is that? Don’t get me wrong. I never built an electromagnetic field with my bare hands. Neither I made one collapse with my hands, ever. I don’t want to understate the hard work it is. That would be rude.
I’m only wondering why it takes time because I want to understand how much time it takes and why. I swear the speed of light didn’t cross my mind at all.
Anyway, we have oscillators. The radios and computers function. The changing magnetic field generates electric flow for sure. That’s how your electric bills get generated in the power plants. You pay people for burning what you received from the Sun, and what poisons you after it’s burnt. Although you don’t want to build a power plant for yourself, and those people don’t want to do your job either, and the Sun doesn’t care. So, it’s okay.
The point is, you can build an inductor from copper wire, and move a magnet next to it, and generate electricity. I did it when I was a child. It works. So, let’s say, the buildup of the electromagnetic field is like when the river is flooding, and its collapse is like when the water flows back to the river. We have the opposing forces in the capacitor. We have the momentum in the buildup and collapse of the electromagnetic field around the inductor. We see why they vibrate.
So far, so good.
And now, tell me, where the hell the opposing forces come from when light travels in space?
Light is said to have waves. The length of the wave defines its color. Waves are vibration in motion.
On the surface of the water, the forces that make the vibration come from the positional energy difference. Positional energy is related to gravity. In the air, the forces that make sound vibrate come from the air pressure difference between regions.
When a steel spring is vibrating, you can explain it by the opposing forces that want to restore its original form (equilibrium). You can even explain why it wants to regain its shape by the structure of the atoms and the, ..., wait, I forgot to tell you that atoms can count their electrons.
In the periodic table, everyone is dreaming about becoming a noble gas one day, except for those lucky enough to be noble gases already. It’s because atoms can count their electrons, and they have the ideal concept of having 2, 8, 8, 18 electrons. Peer pressure, I suppose. All the atoms share one big dream.
Or maybe the periodic table is a hotel where the atoms live, and the rooms on the right side have a decent view of the ocean. Why not?
Can you see that we are running out of sane reasons?
Let’s go back to light. What are the points between light is vibrating?
What is vibrating?
What are the forces that cause the thing we don’t know what it is to vibrate?
In the water, the vibration spreads because the forces caused by the positional energy difference are not only vertical. The water pushes the water around it. That’s clear.
You should see it now; the wave doesn’t exist. It’s the water that’s moving.
So, tell me what the fuck is vibrating in space?
And where is the photon coming from? It’s said to have no rest mass. Hence, it has no energy, or Einstein was wrong.
Since everything is told to be energy and the photon at rest has no energy, what does it have? What is it made of?
Again. The rest photon has no energy. Everything is energy. What is the photon?
Subatomic particles are told to be energy enclosed. The enclosed energy makes up the mass. So good.
Tell me, if everything is energy, what is the thing that encloses the energy?
I repeat.
If the mass is enclosed energy, and everything is energy, then what encloses the energy?
Other energy?
If not, then what? The government? The aliens?
And why the hell would energy vibrate?
What are the opposing forces that make the energy vibrate, and where does it momentum come from?
Somewhere here, if not earlier, should be the point where you realize it’s a joke. The joke isn’t what you are reading. Science is.
It’s not that the Universe is difficult to understand.
It’s not that science doesn’t yet know everything, and it takes more time to discover.
The wave nature of light can be measured.
I never measured it, so I should not take it granted, but I built two or three radios, and they worked. That was in the age of AM stations (amplitude modulation) hence the radios were simple compared to what you would need to build today. One of them consisted only of an inductor and a tunable capacitor. It’s didn’t even have a battery or any other electric source than the antenna. Yes, it worked with super-sensitive headphones. I could switch between the stations. Thus, I believe that electromagnetic waves are waves, and they have a specific frequency because the size of the capacitor should define the frequency if we believe it takes time to build up a magnetic field.
Then, the light also can have a frequency. Why not?
It leads to paradoxes, though.
The wave doesn’t exist. It’s the medium that’s moving.
Space has no medium.
Ah, maybe it’s the quantum field!
If light travels in the quantum field, and it doesn’t travel with infinite speed, then the quantum field must be compressible.
And now, we are talking about the pressure of the quantum field. Does it make any sense?
What is compressed in the quantum field, and what is in between the things that are compressed?
Is it that difficult to understand that the Universe is intelligent, and it does it on purpose?
Why would it do it?
I mean, it could be a joke, but what’s the point? Why would the Universe torture science, or at least make fun of it?
What’s wrong with science?
Science limits imagination. Science is about nothing but telling you what you cannot do.
The Universe is imagination itself.
Don’t you think science is limiting?
If you look around, you see your computer, cell phone, headphones. Do you like them?
Science didn’t create them. The only things science ever created were the A-bomb and the H-bomb.
People like Edison created the things around you. He wasn’t a scientist. Edison didn’t sit above a sheet of paper to calculate the light bulb.
He put some material into the bulb, turn it on. It burned out in a moment again and again.
And again.
Almost everyone would have stopped doing it. He didn’t. He did it as long as he found a material and a configuration when it didn’t burn in one second but two. Then, in ten. Then, it lasted for an hour.
He knew science on a level. What he knew, even more, was what he wanted to create.
His opposite was Stephen Hawking. He spent his life on calculations that concluded in “God didn’t exist”.
Oh yeah.
I’m not sure how and why it didn’t cross his mind that if all his theories were correct in 100%, and everything happened the way he thought, then God still could have been sitting in a corner, and laughing.
You don’t need advanced skills in mathematics and physics to realize that.
The intention behind science is wonderful. It is to explore and to understand. Any intelligence would love that.
You might have these desires if you are still reading what I wrote.
But science doesn’t have to courage to understand that laws are good only as long as they serve a purpose, and when they don’t, they can be changed, and when they aren’t needed, they don’t exist.
To measure is okay.
You can understand the reality by measurement. Yes, you can.
You only have to realize the conclusion of the measurement isn’t a number or a collection of laws. The measurements conclude that the Universe is intelligent, and most of the supposed laws would only limit you.
It doesn’t mean you should stop measuring. You should always measure how much DMT you take. And if you already have the scale at hand, why not put the mushrooms on it before you eat them?
You can also measure whether the furniture of your dreams fits in your apartment or not. And if it doesn’t, you can always get another apartment.
That’s what the Universe does.
Others tell you deductive logic is wrong, and thinking or “overthinking” is wrong too.
The problem isn’t with deductive logic or thinking. The problem is with the thing that some people, for a reason I don’t know, call deductive logic and thinking.
If the Universe is intelligent, then thinking and reasoning must be great.
Your brain is a gift. Accept it.
They say the change of view is when you stop thinking about why isn’t it possible to do something, and you start thinking about why it is possible to do it.
As always, don’t believe such statements.
The change is when you stop caring, whether it is possible or not.
