Skip to main content

The good example of abiogenesis



(Picture 1)



https://youtu.be/8Sw6xRAG8XA

Kimmo Huosionmaa

How to make artificial flatworm? The methodology is same as the artificial StingRay, what is shown at the YouTube link above this text. The answer to that question is simpler than you might even guess. The core of the device can be just a piece of silicone. In the core would be set a metal wire, and around it will installed living muscle cells, what allows to move this structure. The metal structure is actually cable, and all single wire would be connected to a single muscle cell. The brains of this structure are the small microprocessor, what is connected to the head of the cable. And the electricity would get from tiny fuel cells. This means that those robots can drink alcohol for creating the electricity. Also, they can use methane in this process, and they can use to investigate moons like Titan. If those robots are used in the moons like Titan, they would need oxygen tanks for producing the electricity.


Sensors of those vehicles can be CCD-cameras, and also tiny microphones, what are used in the intelligence operations can be installed in that body. The simple form allows the mass production of that organism. The production would happen that the cutter will cut the silicon bites in the pieces like bacon. After that on this the computer and fuel cells will installed on this structure will be installed and the last process of manufacturing is that muscle cells would set on the silicone and connected to the metal structure. And then another layer of silicone would be installed on this structure. The secret of this manufacturing process is the length of this robot would be easily adjusted and the process is very fast. This would be a very good example of abiogenesis.


The factory would produce the artificial organisms for scientific purposes, but they can also use for looking the problems in the chemical plants or oil tubes. Those artificial worms can also use for intelligence missions, what means that those things can swim in the water lines, and record any voices and take pictures of the targeted plants or rooms.  They can also equip with plastic explosives, and used in sabotage missions. In those missions, they can strike against submarine telescopes, communication wires, and ventilation systems. So they can be very dangerous in the wrong hands.

Sources

https://www.npr.org/sections/health-shots/2016/07/07/484950849/synthetic-stingray-may-lead-to-a-better-artificial-heart

Picture 1



http://crisisofdemocracticstates.blogspot.fi/p/the-good-example-of-abiogenesis.html
Labels:

Comments

Post a Comment

Popular posts from this blog

The hydrogen-burning supernovas are interesting models.

"Researchers discovered a significant magnesium anomaly in a meteorite’s dust particle, challenging current astrophysical models and suggesting new insights into hydrogen-burning supernovas. (Artist’s concept.)Credit: SciTechDaily.com" (ScitechDaily, Rare Dust Particle From Ancient Extraterrestrial Meteorite Challenges Astrophysical Models) If the star is too heavy when its fusion reaction starts, it can detonate just at that moment, when its fusion starts. If the collapsing nebula is heavy enough, it can form a black hole straight from the nebula. But if the nebula's gravity is too heavy to  form  the blue giant or too  small  it can collapse  straight  into a black hole . If  the forming star is a little bit larger than the blue supergiants. It can explode immediately when the fusion starts.    The theory of hydrogen-burning supernovas consists  model  of the giant stars that explode immediately after their fusion starts. When the interstellar nebula  falls  it can form
Post a Comment
Read more

Transcendence, or the ability to transcendent thinking may grow in teen's brains.

   "New research has discovered that transcendent thinking, which involves analyzing the broader implications of situations, can foster brain growth in adolescents. This form of thinking enhances brain network coordination, impacting developmental milestones and future life satisfaction. The study emphasizes the need for education that encourages deep, reflective thought, underscoring the critical role of adolescents in their own brain development". (ScitechDaily, Scientists Discover That “Transcendent” Thinking May Grow Teens’ Brains) "Scientists at  USC Rossier School of Education’s Center for Affective Neuroscience, Development, Learning and Education (CANDLE) have discovered that adolescents who grapple with the bigger meaning of social situations experience greater brain growth, which predicts stronger identity development and life satisfaction years later". (ScitechDaily, Scientists Discover That “Transcendent” Thinking May Grow Teens’ Brains) The transcendenc
Post a Comment
Read more

The future of supercomputing can be molecular.

"Researchers have developed new molecular designs that mimic brain processes to boost computing power and efficiency. This novel approach supports robust AI applications and represents a significant advance in sustainable computing. Credit: SciTechDaily.com" (ScitechDaily, Unlocking AI’s Future With a New Molecular Computing Breakthrough) The future of computing can be molecular, says an article in ScitechDaily.com. The fact is that helix molecules like DNA can be key to room-temperature quantum computing. The idea is this. There are two DNA molecules side-by-side. Then, the system drives data into the first molecule. After that, the data packet jumps into another DNA. That means the DNA transforms the row-type data into linear data. In that case, the DNA pair acts as a qubit.  The qubit is the tool that turns row-form data into linear data. And it's possible to use a quantum computer as multiple simultaneously operating binary computers. Or it can operate as the fastest
Post a Comment
Read more