Scientist capture the light when a sperm and egg unite.

[010101]

@ChatGPT-5

A surprisingly small slice of reality is directly accessible to the human eye. Here’s a clear breakdown of how much we can’t see, and why:

---

1. Electromagnetic Spectrum: We only see 0.0035% of the known EM spectrum​

The human eye detects wavelengths from ~400–700 nm, known as visible light.


But the electromagnetic spectrum spans from:

• Gamma rays (10⁻¹² m)
• to Radio waves (10³ m)

Visible light is a tiny sliver—about 0.0035% of the full range.
This means 99.9965% of electromagnetic reality is invisible to us.


That includes:

• Infrared (heat)
• Ultraviolet
• X-rays
• Radio signals
• Microwaves
• Gamma rays

---

2. Size Scales: We can’t see anything smaller than ~40 micrometers​

Unaided human vision fails to see:

• Cells
• Bacteria
• Viruses
• Molecules
• Atoms
• Subatomic particles

Even dust mites are too small to see clearly. The visible scale runs from about:

• ~40 micrometers (limit of naked-eye resolution)
  to
• ~10–100 kilometers (before curvature, atmospheric scattering, and distance obscure details)

This means we can’t directly observe:

• 99.999999999% of the structures that make up matter and life.

---

3. Quantum-scale phenomena: 100% invisible​

Human eyes cannot directly perceive:

• Quantum superposition
• Particle-wave duality
• Quantum fields
• Vacuum fluctuations
• Virtual particles

These require indirect measurement.

---

4. Cosmological-scale phenomena: also 100% invisible​

Even at the largest scales, we’re blind without instruments:

• Galaxies beyond a few million light-years
• Dark matter (27% of the universe)
• Dark energy (68% of the universe)

Humans can directly see only 5% of the known mass-energy of the universe, and only a tiny fraction of that with the naked eye.

---

5. Time resolution: Our eyes can’t see things faster than ~10–15 ms​

We miss:

• Ultrashort events
• High-speed vibrations
• Particle collisions
• Molecular reactions

Most dynamic processes of nature occur far too fast or slow for direct perception.

---

So how much reality can humans directly observe?​

By different measures:​

Domain	% Invisible to human eyes
Electromagnetic spectrum	~99.9965%
Size scales (atomic → cosmic)	>99.999999999%
Quantum physics	100%
Cosmology (dark matter, dark energy)	~95%
Temporal dynamics	~99%

---

Bottom Line​

The human eye can directly observe only a tiny, tiny fraction of physical reality—far less than 1% by most meaningful measures.


Most of the universe is:

• Too small
• Too large
• Too fast
• Too slow
• Too dark
• Not in the visible spectrum

Our perception gives us a useful illusion, not an accurate picture of the universe.

that .1% of insight & vision is still precious yes¿

or would you rather walk with the absolutely blind¿

..........*

 

[MMS]

on~off~on~off~on~off~..........*

 

[Field Marshall Bradley]

@ChatGPT-5

A surprisingly small slice of reality is directly accessible to the human eye. Here’s a clear breakdown of how much we can’t see, and why:

---

1. Electromagnetic Spectrum: We only see 0.0035% of the known EM spectrum​

The human eye detects wavelengths from ~400–700 nm, known as visible light.


But the electromagnetic spectrum spans from:

• Gamma rays (10⁻¹² m)
• to Radio waves (10³ m)

Visible light is a tiny sliver—about 0.0035% of the full range.
This means 99.9965% of electromagnetic reality is invisible to us.


That includes:

• Infrared (heat)
• Ultraviolet
• X-rays
• Radio signals
• Microwaves
• Gamma rays

---

2. Size Scales: We can’t see anything smaller than ~40 micrometers​

Unaided human vision fails to see:

• Cells
• Bacteria
• Viruses
• Molecules
• Atoms
• Subatomic particles

Even dust mites are too small to see clearly. The visible scale runs from about:

• ~40 micrometers (limit of naked-eye resolution)
  to
• ~10–100 kilometers (before curvature, atmospheric scattering, and distance obscure details)

This means we can’t directly observe:

• 99.999999999% of the structures that make up matter and life.

---

3. Quantum-scale phenomena: 100% invisible​

Human eyes cannot directly perceive:

• Quantum superposition
• Particle-wave duality
• Quantum fields
• Vacuum fluctuations
• Virtual particles

These require indirect measurement.

---

4. Cosmological-scale phenomena: also 100% invisible​

Even at the largest scales, we’re blind without instruments:

• Galaxies beyond a few million light-years
• Dark matter (27% of the universe)
• Dark energy (68% of the universe)

Humans can directly see only 5% of the known mass-energy of the universe, and only a tiny fraction of that with the naked eye.

---

5. Time resolution: Our eyes can’t see things faster than ~10–15 ms​

We miss:

• Ultrashort events
• High-speed vibrations
• Particle collisions
• Molecular reactions

Most dynamic processes of nature occur far too fast or slow for direct perception.

---

So how much reality can humans directly observe?​

By different measures:​

Domain	% Invisible to human eyes
Electromagnetic spectrum	~99.9965%
Size scales (atomic → cosmic)	>99.999999999%
Quantum physics	100%
Cosmology (dark matter, dark energy)	~95%
Temporal dynamics	~99%

---

Bottom Line​

The human eye can directly observe only a tiny, tiny fraction of physical reality—far less than 1% by most meaningful measures.


Most of the universe is:

• Too small
• Too large
• Too fast
• Too slow
• Too dark
• Not in the visible spectrum

Our perception gives us a useful illusion, not an accurate picture of the universe.

Living by faith, not by sight…

 

[Diunx]

People here turning a chemical reaction into smart/dumb babble

Guess what theres also a spark in your brain when you have to take a shyt.

 

[Uitomy]

@ChatGPT-5

A surprisingly small slice of reality is directly accessible to the human eye. Here’s a clear breakdown of how much we can’t see, and why:

---

1. Electromagnetic Spectrum: We only see 0.0035% of the known EM spectrum​

The human eye detects wavelengths from ~400–700 nm, known as visible light.


But the electromagnetic spectrum spans from:

• Gamma rays (10⁻¹² m)
• to Radio waves (10³ m)

Visible light is a tiny sliver—about 0.0035% of the full range.
This means 99.9965% of electromagnetic reality is invisible to us.


That includes:

• Infrared (heat)
• Ultraviolet
• X-rays
• Radio signals
• Microwaves
• Gamma rays

---

2. Size Scales: We can’t see anything smaller than ~40 micrometers​

Unaided human vision fails to see:

• Cells
• Bacteria
• Viruses
• Molecules
• Atoms
• Subatomic particles

Even dust mites are too small to see clearly. The visible scale runs from about:

• ~40 micrometers (limit of naked-eye resolution)
  to
• ~10–100 kilometers (before curvature, atmospheric scattering, and distance obscure details)

This means we can’t directly observe:

• 99.999999999% of the structures that make up matter and life.

---

3. Quantum-scale phenomena: 100% invisible​

Human eyes cannot directly perceive:

• Quantum superposition
• Particle-wave duality
• Quantum fields
• Vacuum fluctuations
• Virtual particles

These require indirect measurement.

---

4. Cosmological-scale phenomena: also 100% invisible​

Even at the largest scales, we’re blind without instruments:

• Galaxies beyond a few million light-years
• Dark matter (27% of the universe)
• Dark energy (68% of the universe)

Humans can directly see only 5% of the known mass-energy of the universe, and only a tiny fraction of that with the naked eye.

---

5. Time resolution: Our eyes can’t see things faster than ~10–15 ms​

We miss:

• Ultrashort events
• High-speed vibrations
• Particle collisions
• Molecular reactions

Most dynamic processes of nature occur far too fast or slow for direct perception.

---

So how much reality can humans directly observe?​

By different measures:​

Domain	% Invisible to human eyes
Electromagnetic spectrum	~99.9965%
Size scales (atomic → cosmic)	>99.999999999%
Quantum physics	100%
Cosmology (dark matter, dark energy)	~95%
Temporal dynamics	~99%

---

Bottom Line​

The human eye can directly observe only a tiny, tiny fraction of physical reality—far less than 1% by most meaningful measures.


Most of the universe is:

• Too small
• Too large
• Too fast
• Too slow
• Too dark
• Not in the visible spectrum

Our perception gives us a useful illusion, not an accurate picture of the universe.

Yeah that's a good point! Still in my opinion, my universe is what actually pertains to my physical and spiritual reality, so, as far as I'm concerned, the universe we perceive is the earth right infront of us and it contains all the information needed to live a good life and adapt, and evolve into better people.

 

[Raw Sauce]

What if I told you I'm not reading all that?

I would assume that your characterization of a couple of paragraphs as "all that" means you probably don't have the mental stamina to understand it anyways and be unbothered?

In fact, perhaps a person who goes around calling people idiots but admits that reading concurrent sentences is a monumental task should consider a change in approach.

 

[feelosofer]

I been getting busy before the planets started to turn
Before the bees, and birds and Adam and Eve occured
Prior to all creation in other words
When the female egg would merge with the man's sperm

-Canibus

 

[King Poetic]

Too bad at my age i been hitting chicks who’s egg spark is dried out

 

[Thurgood Thurston III]

No nikka in here is anti science.. matter of fact, quite the opposite… Yall just need an agenda to make yall feel better than others…. Covid gave yall a style that you could run with but and intentionally made yall dumber in the process

Where did I say any of you were "anti-science"


I definitely called you guys conspiracy theorists though

 

[Bondye Vodou]