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Your Brain Does Something Amazing between Bouts of Intense Learning

So a sequence that might take one second for fingers to type, would take just 50 milliseconds for the brain to replay. That’s an impressive 20-fold compression...

Scientist use MEG, an imaging technique, which can observe neural to find out that brain kept replaying the practice 20 time faster.

Give yourself a break, makes your brain learning better.

Shxt man, I don't know my brain is so powerful, thanks scientists.

Source:https://www.scientificamerican.com/podcast/episode/your-brain-does-something-amazing-between-bouts-of-intense-learning/

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Math and Sleuthing Help to Explain Epidemics of the Past

One mathematician has spend decades uncovering the deadly calculations of pestilence and plague, sometimes finding data that were hiding in plain sight. First: Collect Historic document Second: plot out the number of cases, over time, for an individual epidemic, and we will see an exponential rise. Third: By the above data, we can get the rate of transmission and the ways pandemics can spread. In this way, we can estimate growth rates and doubling times for COVID-19. 參考資料:https://www.scientificamerican.com/podcast/episode/math-and-sleuthing-help-to-explain-epidemics-of-the-past/

A Car crash Snaps the Daydreaming Mind into Focus.

One researcher's poorly timed attention lapse flipped a car. And this article introduced us why. Question: Why we lose our concentration after doing a thing for a long time? Experiment: Let participant do the same thing repeatedly and the researchers monitored participants' brain waves by EEG to observe their neural rhythms. Finding: The brain is blanketed by slow waves of synchronized neural activity. As a result, we would be influenced by this slow waves so that we lose our concentration. 參考資料: https://www.scientificamerican.com/podcast/episode/a-car-crash-snaps-the-daydreaming-mind-into-focus/