Sunday, November 10, 2024

What the deal with the opening screen of my website?



The opening with the spinning image of me on JohnSokol.com from taken from

The wizard from Second Reality (Unreal 2) from the Demo scene.



 https://youtu.be/ugPZnsRHUkc?si=yveVFCqWiREs_q66&t=280


Tuesday, July 02, 2024

Liquid solar cells

Gemini AI  gives the responses. 

I really find the responses educational. I would never think to learn about norbornadiene. 

Question:  what counpounds are used in liquid solar cells?

Liquid solar cells are a relatively new technology and there are a few different compounds being researched for use in them. One promising compound is norbornadiene (C7H8).

Norbornadiene is a hydrocarbon molecule that can undergo a chemical reaction when it absorbs sunlight. This reaction causes the molecule to change shape, and in the process, it releases energy that can be converted into electricity.

Researchers are still working on improving the efficiency of liquid solar cells, but they have the potential to be a more versatile and lower-cost alternative to traditional solar panels.


www.researchgate.net

Norbornadiene molecule

Other compounds being explored for use in liquid solar cells include dyes, semiconductors, and electrolytes. Dyes are molecules that can absorb sunlight and then emit light of a different wavelength. In a liquid solar cell, a dye could be used to capture sunlight and then transfer the energy to a semiconductor material, which would then convert the energy into electricity.

Semiconductors are materials that can conduct electricity under certain conditions. In a liquid solar cell, a semiconductor material could be used to convert the energy from sunlight into electricity. Electrolytes are solutions that contain ions that can flow freely. In a liquid solar cell, an electrolyte could be used to transport ions between the electrodes, which would allow the cell to generate electricity

Question:could say ito glass and some other metalic suface with water and sodium bicaronate electrolite be use with a dye to absorb light?

The concept you describe has some similarities to a type of solar cell called a Dye-Sensitized Solar Cell (DSSC). Here's how it compares:

Similarities:

Dye: You're right, DSSCs use dyes to absorb sunlight and initiate the conversion process to electricity.

Electrolyte: Liquid electrolytes are indeed used in DSSCs, although the composition differs.

Differences:

Electrolyte: Sodium bicarbonate (NaHCO3) isn't typically used in DSSCs. Common electrolytes involve a solvent (often organic) containing dissolved salts like lithium iodide (LiI) or a redox couple like iodine (I2)/iodide (I-). These components play a crucial role in transporting ions within the cell.

Metallic Surface: While DSSCs don't directly use a metallic surface, they do utilize a semiconducting material, most commonly titanium dioxide (TiO2). This material is often deposited on a transparent conductive substrate like Fluorine-doped Tin Oxide (FTO) glass, which ITO glass essentially is.

So, can your concept work?

It's unlikely to be very efficient in its current form. Here's why:

Electrolyte: Sodium bicarbonate wouldn't provide the necessary ionic conductivity for efficient charge transport.

Metallic Surface: Metals generally don't have the desired properties for light absorption and charge separation needed in a solar cell.

What about using ITO glass with a different dye and electrolyte?

This approach is closer to a DSSC. However, DSSCs require careful optimization of all components (dye, electrolyte, semiconductor) for efficient light absorption, charge transfer, and regeneration.  Building a functional DSSC can be quite complex.

Here are some resources for further exploration:

Dye-sensitized solar cell (Wikipedia): https://en.wikipedia.org/wiki/Dye-sensitized_solar_cell

Solar Cells: Juice From Juice (Cornell University): https://www.ccmr.cornell.edu/education/educational-resources/lending-library-of-experiments/chemistry-kits/solar-cells/ (This is a very basic experiment but demonstrates the concept) 

Saturday, March 16, 2024

I was tearing in to TV's

I was tearing in to TV's at age 6 and fixing them at age 8, by age 12 I had a soldering iron and a bag of junk. All I needed was power and a table and chair. 

 I would take Bets.  $20 I can fix it, or it's free.  people would line up.  Anything in they would put in front of me, electronic/electrical . I'd get a minute to examine it , and tell them what parts , or fix it with what I brought.  A literal Felix the Cat, with a bag of tricks.

I would oddly just know what I needed for that days adventures. 

Anyhow people would literally gather and take bets. In the most lucrative neighborhoods.  I'd be brought in to untangle a companies phone system and reprogram their PBX, or some industrial controller.   Anything Dangerous  AC power I'd bring my dad in .  But I got to fix computers. So I wrote a data based on the TRS-80 model 3 for the North Jersey Buick Dealers association. I be sitting in the showroom writing code.  Before you know it I am helping write the Arc file compressor, with a guy who was teaching me about Unix and compression.  Building radio equipment and all sorts of stuff. 

Friday, February 23, 2024

Anatoly Dneprov’s 1958 Russian work Крабы идут по острову , can you give me a summary, and it relivance to today?

Bing:

“Крабы идут по острову” (Crabs on the Island) is a science fiction short story by Anatoly Dneprov. The story revolves around an engineer named Cookling who conducts an experiment on a small tropical island12. He uses self-replicating, evolving robotic crabs to test Charles Darwin’s theory of evolution12. However, the evolution goes in an unexpected direction, and the island turns into a sort of hell3.

The story is often seen as a cautionary tale about the potential dangers of self-replicating machines or nanobots1. It highlights the risks of creating machines that can reproduce and evolve on their own, especially without proper safeguards or controls in place1.

In terms of its relevance today, the story is more pertinent than ever due to advancements in technology, particularly in the fields of artificial intelligence and robotics1. The concept of self-replicating machines, which was once purely science fiction, is now a real field of study. This story serves as a reminder of the ethical and safety considerations that must be taken into account as we continue to develop and deploy increasin


Anatoly Dneprov’s 1958 Russian work Крабы идут по острову , can you give me a summary, and it relivance to today?

ChatGPT:

Anatoly Dneprov's 1958 work "Крабы идут по острову" (Crabs Walk on the Island) is a science fiction short story that is well-regarded in Russian literature. The narrative revolves around a group of scientists on a remote island who are conducting nuclear tests. The story takes an unexpected turn when the crabs on the island start displaying unusual behavior as a consequence of the nuclear tests, eventually leading to unforeseen and disastrous results.

The central theme of the story deals with the unforeseen and often dangerous consequences of scientific progress and human intervention in nature, especially when it comes to the power of nuclear energy. Dneprov, trained as a physicist, often explored themes related to the responsibilities of scientists and the ethical implications of scientific advancements in his works.

In terms of its relevance today, "Crabs Walk on the Island" remains a poignant reminder of the potential environmental and ecological impacts of nuclear testing and, more broadly, of human technological advancements without sufficient consideration of their consequences. The story echoes current concerns about environmental degradation, the ethical responsibilities of scientists and engineers, and the unforeseen consequences of technological progress. It serves as a cautionary tale about the importance of considering the long-term impacts of our actions on the planet and its ecosystems.

Everything in Pink is just wrong.