Are Twitter Bots Delivering Science Serendipity?

Are Twitter Bots Really Delivering Science? This article focuses on the topic. You will learn about Twitter bots, creating moths stroke by stroke, simulating the flow of water, and the antibiotics found in frogs. You can also learn how Twitter bots can help you with your science projects. Here are some interesting Bots for Science examples:

Twitter bots

Among the many uses for Twitter, science-themed Twitter bots have the ability to provide factual information, humor, and even galactic perspective. One bot, @shark_girls, casts two geotracked great white sharks as travel writers. Another bot, @the_ephemerides, combines raw images of outer planet probes with computer-generated poetry. Another bot, @souyakuchan, analyzes popular tweets and tries to explain their source material.

Another application for Twitter bots is in the field of public health. A bot that tweets the number of emergency room visits has been developed by a Quartz reporter. The bot monitors emergency room visits at over 100 hospitals across the United States. Although most of the injuries were minor, the entries are written in a pithy manner reminiscent of a rushed E.R. physician. One interesting feature of the bot is the age distribution of people who wall-punch. The age group with the highest rate of wall-punching was 15 years old.

Creating moths stroke by stroke

Bots are already delivering science serendipity to our daily lives. These social media robots are capable of tweeting images of moths, which it then turns into a real-life replica. They tweet variations on the structures of real moths and even accept user suggestions. A bot like this could be a valuable tool for environmental monitoring and research. The bot’s creators hope to develop the bot to further improve its capabilities.

To develop a cyborg moth, scientists at the North Carolina State University integrated wires and tissue into the insect’s body. The wires and electrodes fused with the insect’s tissue. Researchers then used magnetic levitation to observe its flight. The researchers then wirelessly collected data as the insect flew through a simulated arena, including LED lights. They also monitored the electrical pulses of the moth’s brain.

Simulating water flow

In a groundbreaking project funded by the Swiss NanoTera Program, researchers are developing a swimming robot that detects water pollution. The Envirobot features chemical, physical, and biological sensors. It measures 1.5 meters in length and swims through water like an eel, collecting data without disturbing aquatic life. The robot can send real-time measurements to a computer, enabling researchers to better understand the toxicity of water and other pollutants.

The Envirobot project involves engineers and biologists at EPFL and University of Lausanne. It also involves the Swiss Federal Institute of Aquatic Science and Technology (SWIT). The robot is comprised of multiple modules, each of which contains a small electric motor for changing the curvature of the robot. The modules can be removed for testing and transported to a remote water reservoir.

Antibiotics found in frogs

In order to find new ways to combat drug-resistant bacteria, researchers are turning to amphibians for their antimicrobial capabilities. Frogs have evolved to produce a potent cocktail of antibiotics and other compounds that fight microbial infections. They drink and breathe through their skin, and they spend much of their time in teeming waters. Scientists are using this unique ability to create new drugs to combat these bacteria and protect people from a growing public health threat.

Bots can deliver science to specific parts of the body or corral microplastics from the ocean. These xenobots are not yet usable, but if they prove useful, they could be used to deliver medicine to a particular area of the body. Computer scientists and biologists discovered xenobots in 2018. They began by combining stem cells from frog embryos and salt water. They then clumped into spheres. Then, they added cilia, which allow them to move and carry out tasks.

Examples of medical serendipity

The medical field has long recognized the potential of bots to deliver serendipity and other kinds of ephemera. A recent example is the discovery of an antiparasitic drug. Bots have been used to deliver such treatments since the early 1980s. In the early 1990s, bots were used to deliver a variety of drugs. These medicines have since become widely available, including some that are now available through prescription.