The Fantastic World of Science

Alzheimer’s is an incurable disease that affects those in their elderly years and results in loss of many cognitive skills including memory and problem-solving skills. People with Alzheimer’s tend to show a loss of navigational skills before their rapid loss of memory. Keeping track of this may allow people to identify and begin treatment earlier. But to understand the difference in navigational abilities, it's necessary to develop a baseline of data: what are the expected navigational skills of a 75-year-old in America? To gather this data, researchers proposed a video game that would test navigational skills and collect demographic data. They partnered with a subsidiary of T-Mobile to develop a video game called Sea Hero Quest, which has players navigate varying complexity maps to complete objectives. The researchers expected to collect data on 100,000 people from Western Europe, but due to an ad-campaign and a partnership with one of the largest youtubers in the world named Pe...

AI is a revolutionary technology that has applications in many diverse fields. From autonomous cars to optimal stock trading and beyond, AI has a profound impact on the world around us. One facet of AI is machine learning, where a computer system can learn to perform a task without explicit instruction via algorithms and statistical analysis of data sets. Due to these requirements, machine learning requires a lot of computational power. However, scientists have recently developed a simple electrical circuit, based loosely on how human brains function, that can teach itself to perform various AI tasks, such as recognition, without a computer aid. To understand how this circuit works like an AI, we need to understand a basic neural network structure. Neural networks can be modeled as a collection of nodes connected by weighted edges that numerically represent the correlation between nodes. Several networks are layered on top of one another, where the first network takes input data, an...

  During hibernation, mammals will go without food or water and rest in a catatonic state for months on end. However, at the end of it all, these animals will continue about their business as if nothing had happened. Part of understanding this mystery is to find out how mammals prevent the degradation of their muscles during long periods of inactivity. New research on thirteen-line squirrels suggests that microbes in the gut are responsible. A thirteen-lined squirrel presenting its signature stripes. They hold the key to understanding the mechanisms that make hibernation possible for mammals.  Research was conducted to investigate how thirteen-lined squirrels can maintain their muscle mass over long periods of hibernation in the wintertime. They hypothesized that squirrel's maintain the energy by  breaking down muscle proteins throughout their body. This process produces ammonium, a nitrogen containing substance, which their body converts to urea. Urea is transported t...

Collective animal behavior is a curious phenomenon in the animal kingdom. Animals of varying complexity and intelligence have shown the capacity to move in highly coordinated groups. This includes flocks of birds and foraging parties in ant colonies. Scientists haven’t been able to figure out exactly how these complex groups function. However, recent experiments have generated insight into some key mechanisms underlying this behavior. Researchers wanted to better understand the flocking behavior of jackdaws, birds that closely resemble crows in physicality and intelligence. They began tracking the birds flight patterns using high-speed cameras to create three-dimensional maps that show the flight path of every bird in the flock. In the winter months after foraging for food, the birds will travel together back to their nests; scientist call this a transiting flock. To test how their group behavior changed given different environmental conditions, researchers placed a robotic fox in a...