War sehr leicht zu verdauen. Keine spezifische Fachbegriffe nötig um gut verstehen zu können um was es in diesem Buch geht. Ein Interesse an übersinnlichen Fähigkeiten wird gestillt. Ist im Ganzen sehr vielseitig und beschränkt sich nicht auf ein zentrales Thema. In meinem Fall habe ich es gekauft, weil ich sehr lesefaul bin :/ jedoch ist es für ein gutes Englisch ein muss sich Bücher zu kaufen und diese zu lesen. So lern man am schnellsten und effektivsten. Kann schon vorkommen das man einzelne Wörter im Lexikon nach schlagen muss aber war bei mir eher selten. Macht Spaß zum Lesen und kann weiter empfehlt werden.
‘The Future of the Mind’ written by popular physicist Michio Kaku is a great vision about the human future, which unlike usually encountered, is not at all dark, but offers some unimagined and exciting opportunities that already seem almost at our fingertips.
Inside his book this charming scientist whose style makes science so interesting and tempting, provides reader with latest neuroscience research whose discoveries are still considered as a scientific fiction and something that most people with suspicion would consider impossible. Kaku speaks about recording our memories to be stored for future generations to enjoy, telepathy that would help communication problems disappear, taping our dreams that would allow enjoying fantastic worlds even we are awake, mind control of various devices around us, telekinesis and many others extraordinary things that are commonly thought could only be performed by magicians for naive people.
The idea that one day, possible very soon, humans will be able to control things with their mind, that we will be able to upload our memories and knowledge to the super computers or send our emotions and thoughts are things that will not only help people on Earth, but certainly will help further technology research that would allow the spread of the human species throughout the universe. And all these things found inside truly sound amazing, especially when reader on its pages learns many details of the research carried out extremely long and with great successes in laboratories around the world.
Kaku that except for his books became known to public by many appearances in various scientific TV series manages to discuss this subject in very professional, understandable and interesting manner, explaining where human mind is leading our society and species in the years to come. And though the author is theoretical physicist, because of his long interest in neuroscience and human biology he succeeds to write his work with accuracy though at the same time managing to present well the subject to the people who are not specialists in this area, which is characteristic of only a small number of scientists who usually write their books for their colleagues, and not for the general public.
Kaku for the purpose of writing his book much discussed with world leading neurobiologists. Therefore is not surprising that the result is a great popular science book whose main characteristic is competence. But just because it was written by this author, ‘The Future of the Mind’ can be recommended to all those who do not know anything about this interesting topic because thanks to Kaku’s style and skill, in front of us is a book that will for a long time intrigue the general public worldwide. Until things he wrote about will become normal, daily seen....
it's fantastic !! and it makes a bit thoughtful... some things, we daily use, some of these things our ancestors couldn't imagine are today real! it's normal to fly from Paris to New York. thinking about this, makes the future to a very interesting adventure.
The main argument: Up until 15 to 20 years ago the instruments and methods used to study the brain were still somewhat primitive. Since this time, however, advances in brain-scanning and brain-probing technology have gone into overdrive—as have the computers needed to make sense of the data from these new technologies. The deluge began in the early to mid 1990’s with the magnetic resonance imaging (MRI) machine, and it’s more powerful cousin the functional magnetic resonance imaging (fMRI) machine, and it hasn’t stopped there. In addition to the MRI and fMRI, we now have a host of advanced sensing and probing technologies from the positron emission topography (PET) scan, to magnetoencephalography (MEG), to near-infrared spectroscopy (NIRS), to optogenetics, to the Clarity technique, to the transcranial electromagnetic scanner (TES), to deep brain stimulation (DBS) and more. In addition to these new scanning and probing technologies we have also advanced greatly in understanding how genes are expressed in the brain.
The result of these new advances is that we have learned more about the brain and how it works in the past 15 years than in all of history put together. And we are beginning to see real-world applications of this new understanding. For example, in the past decade we have learned to read the brain’s functioning to the point where we can now create rough images and video footage of thoughts and even dreams and imaginings; use the brain to directly control computers, and anything computers can control—including prosthetics (and even have these prosthetics send sensations back to the brain); implant and remove simple memories in the brain; create primitive versions of artificial brain structures; and also unravel at least some of the mysteries of mental illness and disease.
And this is just the beginning. Scientists continue to refine the scanners and probes that have recently been invented. What’s more, governments are beginning to put up real money to fund major projects designed to help solve the remaining mysteries of the mind. For example, in 2013 both the United States and the European Union announced significant funding for two ambitious projects whose ultimate goal is to give a full map, model and even simulation of the human brain.
Specifically, the American government contributed over $3 billion to the Brain Research through Advancing Innovative Neurotechnologies (or BRAIN) Initiative, while the European powers contributed over $1.5 billion for the Human Brain Project. What this means is that we can look forward to a time when some of the early advancements we’ve made in understanding and manipulating the brain will reach full maturity. A time when we will interact with computers directly with our thoughts (and paraplegics will power exoskeletons directly with theirs); a time when we can share our thoughts, memories, dreams, and imaginings directly with others; a time when we can upload knowledge and skills directly into our brains; a time when we will have a full understanding of mental illness and disease—and the power to cure them.
And not only does the future of neuroscience promise these great feats, it also promises to help us develop the coping stone of all technologies: artificial intelligence. Indeed, while artificial intelligence has progressed in leaps and bound in recent years, it still remains fairly limited. A big part of this has to do with the fact that we have modeled our artificial intelligence machines based on how we think the mind should work, rather than on how it actually works. With our new knowledge of how the mind does work, however, the prospect of creating AI machines with human-level intelligence becomes ever more real.
The high point of the book is that Kaku gives a very nice overview of the latest developments in neuroscience, as well as where the field is headed next. The weak point of the book is that Kaku occasionally veers way of topic, and occasionally gets carried away on wild flights of speculative fancy (to give just one example, I wasn’t expecting, and didn’t appreciate, a full chapter of speculation about what alien intelligence—if it exists—might look like). Still, the book certainly contains a lot of very interesting and valuable information about the latest in brain science, and it definitely gets the imagination going.