The Connection Of The connection of brains theoryBrains Theory

by: koorosh behzadnia

Topics: mental, The connection of brains theory, behzad, pouria sabetian, saeed karandish, Prof. Dr. Onur Güntürkün, onur.guentuerkuen, niels.birbaumer, frank.roesler, jochen.meier, Benjamin K. Chen, Jia Chen, Rong Chen, Shu-Hsia Chen, Andrew Chess, PEI LING CHIA, Jerry Chipuk, Hearn Jay Cho, Judy H. Cho, Diego Chowell, hubert.dinse, Ling-Shiang Chuang, Uraina Clark, Roger Clem, Jose C. Clemente Litran, Neal A. Cody, Jean-Frederic Colombel, Carlos Cordon-Cardo, Kevin Costa, John F. Crary, Elizabeth Cropper, Dr. Marta Rosario, Paula Croxson, Charlotte Cunningham-Rundles, Kristen Dams-O'Connor, Neha S. Dangayach, Arvin Dar, Terry F. Davies, Ivan E. de Araujo, Silvia De Rubeis, Robert J. Desnick, KAVYA DEVARAKONDA RUSSO, Donald L. Hilton Jr., Lakshmi A. Devi, Robert J. DeVita, George A. Diaz, Dara L. Dickstein, Ron Do, Navneet Dogra, David Dominguez Sola, Nicole C. Dubois, Joel Dudley, Michelle Ehrlich, Elizabeth Anya Phelps, Gregory A. Elder, Graham Ellis-Davies, Benjamin Ely, Matthew J. Evans, Elena Ezhkova, Jeremiah Faith, Gang Fang, Zahi A. Fayad, Li Feng, Ana Fernandez-Sesma, Eric A. Zillmer, James L. Ferrara, Lucas Ferrari de Andrade, Marta Filizola, Robert P. Fisher, Jennifer H. Foss-Feig, Roland Friedel, Scott L. Friedman, Merle (Menachem) Fromer, Vilma Gabbay, James M. Gallo, Tadashi Isa, Miguel A. Gama Sosa, Samuel E. Gandy, Adolfo Garcia Ocana, Adolfo Garcia-Sastre, Bruce D. Gelb, Anastasios Georgakopoulos, Doris Germain, Isabelle M. Germano, Saghi Ghaffari, Yelena Z. Ginzburg, Adhi Wibowo Nurhidayat, Benjamin Glicksberg, Sacha Gnjatic, Alison M. Goate, Rita Z. Goldstein, Javier Gonzalez-Maeso, Ki A. Goosens, David Goukassian, Valerie Gouon-Evans, Hayit Greenspan, Xiaosi Gu, Prof. Masao Ito, Percio S. Gulko, Zeynep H. Gumus, Swapnil Gupta, Emma Guttman, Fatemeh Haghighi, Dolores Hambardzumyan, Ming-Hu Han, Woojin Han, Basil G. Hanss, Ke Hao, Prof. Ying-Shing Chan, Vahram Haroutunian, Erin A. Hazlett, John Cijiang He, MD, Julius Hedden III, Peter S. Heeger, Catarina E. Hioe, Jeanne P. Hirsch, Patrick R. Hof, Gabriel E. Hoffman, Prof. Tadashi Isa, Gay Holstein, Dirk Homann, Jaime Hook, Benjamin D. Hopkins, Sam Horng, Sander Houten, Jianzhong Hu, Kevin Hu, Alice H. Huang, Kuan-Lin Huang, Dr. Muzaimi Mustapha, Laura M. Huckins, George W. Huntley, Yasmin Hurd, James C. Iatridis, Yiannis Ioannou, Steven H. Itzkowitz, Iliyan Ivanov, Srinivas (Ravi) Iyengar, Ethylin W. Jabs, Yael Jacob, Prof. Mohammad Taghi Joghataei, Magdalena Janecka, Joanna Jen, Andrew L. Ji, Jian Jin, René S. Kahn, Jonathan Karr, Andrew Kasarskis, Eimear E. Kenny, Paul J. Kenny, David Kimhy, Prof. Abbas Haghparast, Drew D. Kiraly, Robert J. Klein, Harold W. Koenigsberg, Jason C. Kovacic, Patricia Kovatch, Florian Krammer, Robert S. Krauss, Terry A. Krulwich, Varun Kumar, Jeffrey T. Laitman, Prof. S. Thameem Dheen, Michael Lazarus, Benhur Lee, Donghoon Lee, Derek LeRoith, Jean K. Lim, Sergio Lira, Ruth Loos, Amaya Lujambio Goizueta, Avi Ma'ayan, James J. Manfredi, Dr. Cesar V. Borlongan, Ivan Marazzi, Michael L. Marin, Florence Marlow, Samuele Marro, Giampero (John) A. Martignetti, Sandra K. Masur, Helen S. Mayberg, Ian S. Maze, Cameron S. McAlpine, Saurabh Mehandru, Dr. Ranil De Silva, Miriam Merad, Mihaly Mezei, Sarah Millar, Susan Zolla-Pazner, brain, Dr. Sunil Dhungel, Dr. Ajaya Jung Kunwar, Suzanne S. Stensaas, Paul D. Larsen, James L. McGaugh, Distinguished Emeritus Professor, B.A., San Jose, Suzana Herculano-Houzel, Christine Ann Denny, Daniela Schiller, anne.schaefer, jenny.rivera, venamatie.persaud, thomas.harmon, Jessica L. Ables, Aneel K. Aggarwal, Julio A. Aguirre-Ghiso, Tim D. Ahfeldt, Schahram Akbarian, Konstantina Alexandropoulos, Nelly Alia-Klein, Carmen Argmann, Evren U. Azeloglu, Priti Balchandani, Goran Bajic, Margaret H. Baron, Meena B. Bansal, Ali Bashir, Christopher F. Basler, Deanna L. Benson, Emily Bernstein, M. Cecilia Berin, Nina Bhardwaj, James J. Bieker, Johan Bjorkegren, Joel Blanchard, Julie M. Blander, Timothy A. Blenkinsop, Robert D. Blitzer, Paolo Boffetta, Dusan Bogunovic, Nicole M. Bouvier, Anne Bowcock, Andrea D. Branch, Jose Javier Bravo-Cordero, Michael S. Breen, Margo S. Breilyn, Kristen Brennand, Joshua Brody, Brian D. Brown, Steven R. Brown, Patrick M. Brunner, Christoph Buettner, Supinda Bunyavanich, Steven J. Burakoff, Joseph D. Buxbaum, Minji Byun, Ross L. Cagan, Bishuang Cai, Chenleng Cai, Denise Cai, Dongming Cai, Kirk Campbell, Anna Cantalupo, Patrizia Casaccia, Joseph M. Castellano, Arthur I. Cederbaum, Julide T. Celebi, Andrea Cerutti, Alexander Charney, Dennis S. Charney, Jose Chavez

Collection: opensource

morphology and Human-specific physics provide the conditions for this connection. Humanaly understanding, or having a strong receptor, requires the spherical position of the head and the standed position of the person (walking on two legs); Combining your head with your body while standing creates a microphone-like shape that is very effective in increasing the reception of thought waves. The microphone mode of your body from two ways increases the power of receiving brain waves

First that,; Increases exponentially the receiving power of the satellite dish or the cortical the brain.

second that; between the body and brain waves wandering in out world create the gravity.

For the same reason, when you walk or stand, your brain interacts the most with other people (compared to Sitting, lying down or resting).

Please do the following experiment; Choose five people and ask each of them ten questions of mid-level intelligence test. Ask them to respond at rest. Then ask them ten similar(in mid-level intelligence) questions and ask them to answer while standing. Interestingly, in the standing position, despite fatigue, the test results are much better than in the resting position!

Disproportionate development of the cerebral cortex, which, unlike chimpanzees and other animals has occupied 80% of your brain space, for shaping human understanding and showing its importance is! The cortical part of the brain is a symbol of the superiority of human cognitive abilities. Because as you can see, the cortical part and the grooves of its surface, Regardless of the number of neurons in establishing relationships with other brains and or connecting to global memory, play a key role.

Following the two types of understanding above, obviously, two types of memory are also formed.

animally memory is in the brain and behavies like a limited hard drive, means to it constantly filters out spam or Additional information. It is most likely the center of animally memory in the limbic system. It is even possible for human or some animals to have two animally memory. (Limbic system and cerebellum) I will talk more about them in the next chapters.

Cosmic memory, Universal memory, or human memory that has a capacity the size of the universe, includes wander information in the environment. Memory that is not inside the human body; But because of its connection to the neurons in the brain, it has become part of your thinking system; An unique ability, which has made you the most amazing event in the world!

Were it not for the cosmic memory, human was not becoming God on the earth!!