The everything store — Summary

Learn from one of the biggest visionaries and entrepreneurs, the mind behind Amazon. Jeff Bezos worked at the hedge fund D.E. Shaw & Co back in the early nineties. He was a remarkable employee. He had the ability for deep analytical thinking since he was a young boy. Upon graduating from Princeton in 1986, Bezos worked … Read more

Emotional Intelligence: Why It Can Matter More Than IQ — Summary

Learn to manage your emotions so that you can use them to your benefit Emotions are not only what define our relationships or extreme situations like a fight. They are an integral part of our decision-making process. In this book, you will learn what emotional intelligence (EI) means and how it can be developed. But … Read more

Growth Hacker Marketing — Summary

Learn how to outperform massive traditional marketing budgets with free growth hacker marketing Traditional marketing techniques won’t get you the same results like growth hacker techniques. For example, if you want to create a viral post or product, paying a huge marketing campaign won’t do the job. Your product has to capture new customers by … Read more

Payoff — Summary

Learn how to motivate yourself and others from this “little brother” of the book Drive. What exactly is motivation and are there different types of motivation? We learned the difference between intrinsic and extrinsic motivation in the book Drive. In this book, you will learn more about what makes us motivated, spoiler alert * it … Read more

The lean startup — Summary

Learn how to form a successful new business Startups differ from established companies in that they don’t know exactly how to do things. They need to be flexible and make quick adjustments. Traditional management sets goals and oversees the execution of it, something which in Startups won’t work, a startup has insufficient experience to predefine a … Read more

Predictably Irrational — Summary

Learn how to think effectively from one of the best books on the topic Relative value Our mind always tries to compare one thing with another one to try to estimate its value, attractiveness or whatever it tries to identify. This is the relativeness of everything. What’s more, often our brain picks the laziest option possible, something … Read more

Mindware — Summary

Learn to reason more rationally Have you ever wondered why people make stupid mistakes? You might have observed how even a very smart person does an obvious mistake. This book will help you to upgrade your reasoning skills. Correlation is not causation Whenever we encounter two things which correlate (occur together) we tend to assume … Read more

How Google works — Summary

This book will teach you why Google hires smart-creatives, and why the company still manages to maintain a startup feeling. Ever since Google was born in 1998, the company has become one of the most valuable and successful companies in the tech world. But despite having a net worth of hundreds of billions and 15 … Read more

A whole new mind — Summary

Learn why big picture-holistic thinking is, and will become even more important in the future. People have assumed from ancient times about a division in our brain. Namely, a left and a right hemisphere. Modern science has supported a neurological divide although we know that in every activity we engage in both hemispheres cooperate. While there … Read more

Flow — Summary

This book will explain to you how to attain a perfect satisfying work experience or help you improve other activities and your overall happiness. This book is a good follow-up from the book DRIVE. If you missed that summary, you might want to check it out first. Humans seek happiness in a variety of ways. There are … Read more

Drive — Summary

Extrinsic motivation Extrinsic motivation is motivation which comes from outside ourselves. It comes in two flavors, pain, and pleasure or punishment and reward, aka. “The stick and the carrot.” Once, some 50.000 years ago, man’s main driver was his own survival. Later in the age of industrialization, things started to become more complex. New extrinsic … Read more

The future of the mind — Summary

Learn about the future of our mind from the prominent visionary and physicist Michio Kaku

While humanity started exploring space some four hundred years ago thanks to the invention of the telescope. Starting to have an idea of the vastness of space. Equivalent instruments to explore our brains, however, only emerged a few decades ago.

This means that we are only now starting to take the first strides in understanding about the functioning of our brain. Before modern brain imaging tools were available, scientists tried to gain understanding about the brain by autopsies of people with brain damage.

Despite those primitive methods, scientists eventually were able to eventually understand how our brains evolved from reptiles into mammals and then into humans. Thus, the new brain structures were added on top of the old ones. These three stages of evolution are even visible today.

The reptilian brain

The reptilian brain is located at the back and center of the brain. It owes its name to the fact that it is identical to the brain of reptiles. This 500 million-year-old brain controls the elementary mental functions like breathing, heartbeat, fighting and mating. It is responsible for the basic functions needed for survival.

The mammalian brain

The mammalian brain comes next, on top of the reptilian brain. It consists of the limbic system, and the cerebral cortex. The cerebral cortex is the outer layer of the brain and enables higher-order thinking skills and complex social interactions.

The prefrontal cortex

What differs the human brain from other mammals is the part of the brain located directly behind our foreheads. This big and complex part is called the prefrontal cortex. It is the place where rational thoughts are processed and grandiose planning is performed. You can think of it as the CEO of the brain.

As you can see, the human brain is a bit like a museum, compromising remnants from species which came before us. Let’s look into the two hemispheres now.

The two hemispheres of the brain

The brain is split into a left and a right hemisphere, that is fairly common knowledge. Also, most people know that the two halves of the brain perform different functions. The left side controls the muscles of the right side of the body and vice versa. The left hemisphere houses language capabilities whereas the right side is responsible for spatial awareness.

The left side is better at analytical thinking while the right side is better at integrating many pieces of information into a bigger picture, i.e. it is better at intuition and imagination. That’s why it is said that rational people are “left-brained” while artistic ones are more “right-brained”. That is a bit a simplification, but research shows that the two hemispheres can indeed have different personalities.

Experiments with people who’s hemispheres have been severed like it can occur in subjects who suffer epilepsy, give some interesting insights.

A split-brain patient was asked whether he was religious or not. The left hemisphere responded that he was an atheist, while the right side claimed to be a believer.

Another patient’s left hemisphere responded — when asked what he would do after graduation — that he wanted to become a draftsman. While his right hemisphere answered “automobile racer.”

Our hemispheres have some interesting particularities, but the brain is much more complex, let’s look into some more specific areas.

The different functions of the brain

In the 1990’s scientists begun to get a better view of the brain, discovering that there were immensely complex networks of neurons. Roughly 100 billion, supering the numbers of stars in the Milky Way galaxy. One particular area of technological development is brain imaging.

One of the most influential imaging tools is called functional magnetic resonance imaging (fMRI). It consists of powerful magnetic fields which measure the blood flow to various parts of the brain. The imaging tool shows activity because when neurons are active, they need more blood.

But scientists had gained a fairly good knowledge much earlier. In 1864 a German doctor discovered that whenever he touched one side of the brain of brain wounded soldiers, the opposite side of the body would move.

Dr. Wilder Penfield was a brain surgeon who created a complex map of the brain areas responsible for certain body parts. Penfield’s diagrams show that allocation of the cortex happens in proportion to their importance for survival. Larger parts of the cortex are allocated for our mouths and hands, as for example, the skin on our legs.

Specific functions have also been pinpointed to Broca’s and Wernicke’s area, named after the discoverers. Damage to Broca’s area tends to impair the articulation of words, whereas Wernicke’s area results in impairment of the understanding of language.

The spatial and temporal accuracy trade-off of brain imaging

Many more imaging technologies have been discovered beside the fMRI. But a common trait to them is a trade-off of the spatial and temporal accuracy. This means that the tools tend to be either good at measuring where something happens or when something happens. But not both at the same time. Thus none of the other technologies show a substantial improvement over fMRI.

Futuristic technologies like telepathy and telekinesis

Let’s now look into the futuristic implications of brain studies. Scientists have found that individual words produce distinguishable neuronal activation patterns in the brain. This could be explored to “read” those patterns with a dictionary of brain activity and words and thus using it to create a telepathic device, basically transferring out thoughts directly to another person.

It also would enable people who are unable to speak, synthesize their voice through a voice synthesizer by merely thinking about them.

Even more surprising is the fact that scientists can guess what kind of images a subject sees or dreams by observing the brain activity.

Telekinesis would be another great application for these brain activity maps. People could move and control machinery by merely thinking about it.

The process is pretty simple. The brain is observed while the person performs various tasks on a computer, like moving a cursor. Then the computer compiles a dictionary capable of translating the brain activity patterns into actions.

A test of similar technology has already been performed since 2004 when paralyzed patients could communicate via a laptop. But in the future, this technology could become common place to enable people to operate robots and other machinery.

Memory and brain-tuning

Scientists found that using certain chemicals. They could erase memories from the brains of mice. Furthermore, they could reintroduce those memories using electrodes inserted into the mouse’s brain, and stimulating the same neurons as the mice had used before.

So by first uploading the memories onto a computer — which was achieved by inserting electrodes into the brain and recording the neuronal activity of a specific task — they then could later download the memory once again into the mice’s brain, after the mouse had forgotten it due to the chemicals.

The next step would be to upload a memory from one creature and download it onto another. If this becomes possible, people may soon be able to record their memories and share them online like we do with pictures today.

We also may be able to create super-memories. Scientists gave fruit flies a photographic memory through very simple genetic manipulation. Of course, side effects are highly likely, and much research needs to be done before trying something similar on humans memory.

Not only memory could be boosted but also intelligence. Scientists have gotten promising results by creating “genius mice” through genetic modifications.

The future holds promising capabilities for the human brain. Another big

Emulating the human brain and AI

One initiative to gain a profound understanding of exactly how our brains work is the BRAIN initiative. Its mission is to map all the neurons and their connections in the human brain. Having such a map would enable its implementation to gain an Artificial Intelligence (AI).

Some type of AI already exists since some decades. In 1997 for example in 1997, IBM’s Deep Blue defeated chess grand master Garry Kasparov in chess. Those type of AI’s are called Artificial Narrow Intelligence ANI.

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