Fractal structures in water, urine and blood

Cell phones use fractal antennas - we now have similar structures...

What is a fractal antenna?

The fractal antenna comes from the world of radio technology, which is based on the principle of fractal geometry.

Fractals are structures that are repeated on different scales and occur in both natural and artificial systems.

All biological tissues are fractals - as is the antenna in our cell phone.

The unique property of fractals is their ability to exhibit similar shapes across a range of scales. This principle is utilized in the fractal antenna to achieve diverse and efficient antenna characteristics over a broad frequency spectrum.

The following pictures are from the urine and water. They have been applied to the slide open to dry. After a short time, these crystallizations appear:

At the edge of the preparation

Single image - all at 400 x - so that you can estimate the size of these crystals:

Here you can see clear fractal structures whose arrangement is very reminiscent of the shape of graphene:

These structures are connected by crystals to form a larger overall network of:

Advantages of the fractal antenna

Multi-band capability: Traditional antennas are often optimized for a specific frequency or narrow frequency range. However, fractal antennas can operate across multiple frequency bands, making them particularly valuable for modern communication systems that utilize multiple frequency bands.

Compact size: Due to their fractal structure, these antennas can be manufactured in comparatively smaller sizes without compromising their performance.

Improved performance: The fractal shape allows for more efficient radiation and reception of signals, which can lead to better overall performance.

Here is a crystal that is also starting to appear everywhere

Here in a slightly modified form, with the "arms" starting to grow

Here is a net whose arms are completely encased in crystals:

Or forms these large star-like structures, which also forms crystals on the "arms"

Applications of the fractal antenna

Cellular: Due to their ability to operate in multiple frequency bands, fractal antennas are ideal for cell phones and other wireless communication devices that need to function on different networks.

WLAN systems: For home and business networks, fractal antennas can help spread the signal over a wider spectrum and improve signal quality.

Military applications: The compact size and multi-band capabilities make them a valuable option for defense systems that require robust and versatile communication capabilities.

Broadcast: Fractal antennas can be used in broadcast transmitters to distribute broadcasts across multiple frequency bands.

Meanwhile, vaccinated individuals are known to broadcast a bluetooth address.

The "sludge" that increasingly forms on the edges of a sample - be it blood, water or urine - looks quite colorful after drying... The grown "fern-like" structures are also easy to see.

Above you can see what it looks like in the blood after 5 days at the edge. Not normal...