LAST WEEK, AS I WAS WORKING ON SOME RESEARCH, I GOT INTO SOME OF THE “HISTORY/HERITAGE” OF THE S.P.I.R.I.T. OF MUSIC UNIVERSE®; AKA ©THE LEGEND OF THE TRUE MUSIC MAKERS . “NASTINESS/HATEFULNESS/EVIL/BIGOTRY” IS ALL IN THE SUBATOMIC PARTICLES, CALLED “THE FORCE”.
I DISCOVERED, THAT SOME AND MANY OF THE PEOPLE, THAT I RESEARCHED, WERE/ARE SIMPLY “NASTY/PERSONALITIES”, AS HUMAN BEINGS. ITS NOT JUST IN THE “MUSIC/ENTERTAINMENT/MEDIA INDUSTRIES; IT IS FROM ALL TYPES OF PEOPLE, DOWN THROUGHOUT HISTORY.
MY CONCENTRATION, WENT TO FORMER PRESIDENT, BILL BILL CLINTON, THE CURRENT PRESIDENT, HITLER, STALIN, THE ROMAN EMPIRE, ALEXANDER THE GREAT, “MASS MURDERERS”, …
UNTIL GOD MAY ALLOW HUMANS/”US” TINY/PUNY PEOPLE TO SOLVE THESE MYSTERIES; “BEAM-ME-UP-SCOTTIE”, MAY NOT BE ACHIEVABLE??!! AND “HATRED/BIGOTRY/EVIL” AND POSSIBLY THE “SPIRIT” ARE PROBABLY LOCATED/HOUSED WITHIN “THE FORCE”, OF THE SUBATOMIC PARTICLES.
“While quarks, the subatomic particles that make up nucleons, strongly interact within a given proton or neutron, quarks in different protons and neutrons can’t interact much with each other, he said. The strong force inside a nucleon is so strong it eclipses the strong force holding nucleons to other nucleons.”
what about the great Albert Einstein
Albert Einstein was born in Ulm, in the Kingdom of Württemberg in the German Empire, on 14 March 1879.[5] His parents were Hermann Einstein, a salesman and engineer, and Pauline Koch. In 1880, the family moved to Munich, where Einstein’s father and his uncle Jakob founded Elektrotechnische Fabrik J. Einstein & Cie, a company that manufactured electrical equipment based on direct current.[5]
The Einsteins were non-observant Ashkenazi Jews, and Albert attended a Catholic elementary school in Munich, from the age of 5, for three years. At the age of 8, he was transferred to the Luitpold Gymnasium (now known as the Albert Einstein Gymnasium), where he received advanced primary and secondary school education until he left the German Empire seven years later.[19]
In 1894, Hermann and Jakob’s company lost a bid to supply the city of Munich with electrical lighting because they lacked the capital to convert their equipment from the direct current (DC) standard to the more efficient alternating current (AC) standard.[20] The loss forced the sale of the Munich factory. In search of business, the Einstein family moved to Italy, first to Milan and a few months later to Pavia. When the family moved to Pavia, Einstein, then 15, stayed in Munich to finish his studies at the Luitpold Gymnasium. His father intended for him to pursue electrical engineering, but Einstein clashed with authorities and resented the school’s regimen and teaching method. He later wrote that the spirit of learning and creative thought was lost in strict rote learning. At the end of December 1894, he traveled to Italy to join his family in Pavia, convincing the school to let him go by using a doctor’s note.[21] During his time in Italy he wrote a short essay with the title “On the Investigation of the State of the Ether in a Magnetic Field”.[22][23]
Einstein always excelled at math and physics from a young age, reaching a mathematical level years ahead of his peers. The twelve-year-old Einstein taught himself algebra and Euclidean geometry over a single summer. Einstein also independently discovered his own original proof of the Pythagorean theorem at age 12.[24] A family tutor Max Talmud says that after he had given the 12-year-old Einstein a geometry textbook, after a short time “[Einstein] had worked through the whole book. He thereupon devoted himself to higher mathematics… Soon the flight of his mathematical genius was so high I could not follow.”[25] His passion for geometry and algebra led the twelve-year-old to become convinced that nature could be understood as a “mathematical structure”.[25] Einstein started teaching himself calculus at 12, and as a 14-year-old he says he had “mastered integral and differential calculus“.[26]
I also considered “BILL COSBY”, NOW WASTING HIS LAT YEARS AWAY IN A PRISON.
Personal life
Einstein in 1947
Assisting Zionist causes
Einstein was a figurehead leader in helping establish the Hebrew University of Jerusalem, which opened in 1925 and was among its first Board of Governors. Earlier, in 1921, he was asked by the biochemist and president of the World Zionist Organization, Chaim Weizmann, to help raise funds for the planned university.[122] He also submitted various suggestions as to its initial programs.
Among those, he advised first creating an Institute of Agriculture in order to settle the undeveloped land. That should be followed, he suggested, by a Chemical Institute and an Institute of Microbiology, to fight the various ongoing epidemics such as malaria, which he called an “evil” that was undermining a third of the country’s development.[123]:161 Establishing an Oriental Studies Institute, to include language courses given in both Hebrew and Arabic, for scientific exploration of the country and its historical monuments, was also important.[123]:158
Chaim Weizmann later became Israel’s first president. Upon his death while in office in November 1952 and at the urging of Ezriel Carlebach, Prime Minister David Ben-Gurion offered Einstein the position of President of Israel, a mostly ceremonial post.[124][125] The offer was presented by Israel’s ambassador in Washington, Abba Eban, who explained that the offer “embodies the deepest respect which the Jewish people can repose in any of its sons”.[126] Einstein declined, and wrote in his response that he was “deeply moved”, and “at once saddened and ashamed” that he could not accept it.[126]
Love of music
Einstein (right) with writer, musician and Nobel laureate Rabindranath Tagore, 1930
Einstein developed an appreciation for music at an early age. In his late journals he wrote: “If I were not a physicist, I would probably be a musician. I often think in music. I live my daydreams in music. I see my life in terms of music… I get most joy in life out of music.”[127][128]
His mother played the piano reasonably well and wanted her son to learn the violin, not only to instill in him a love of music but also to help him assimilate into German culture. According to conductor Leon Botstein, Einstein began playing when he was 5. However, he did not enjoy it at that age.[129]
When he turned 13, he discovered the violin sonatas of Mozart, whereupon he became enamored of Mozart’s compositions and studied music more willingly. Einstein taught himself to play without “ever practicing systematically”. He said that “love is a better teacher than a sense of duty.”[129] At age 17, he was heard by a school examiner in Aarau while playing Beethoven‘s violin sonatas. The examiner stated afterward that his playing was “remarkable and revealing of ‘great insight'”. What struck the examiner, writes Botstein, was that Einstein “displayed a deep love of the music, a quality that was and remains in short supply. Music possessed an unusual meaning for this student.”[129]
Music took on a pivotal and permanent role in Einstein’s life from that period on. Although the idea of becoming a professional musician himself was not on his mind at any time, among those with whom Einstein played chamber music were a few professionals, and he performed for private audiences and friends. Chamber music had also become a regular part of his social life while living in Bern, Zürich, and Berlin, where he played with Max Planck and his son, among others. He is sometimes erroneously credited as the editor of the 1937 edition of the Köchel catalogue of Mozart’s work; that edition was prepared by Alfred Einstein, who may have been a distant relation.[130][131]
In 1931, while engaged in research at the California Institute of Technology, he visited the Zoellner family conservatory in Los Angeles, where he played some of Beethoven and Mozart’s works with members of the Zoellner Quartet.[132][133] Near the end of his life, when the young Juilliard Quartet visited him in Princeton, he played his violin with them, and the quartet was “impressed by Einstein’s level of coordination and intonation”.[129]
Political and religious views
Main articles: Albert Einstein’s political views and Albert Einstein’s religious views
Albert Einstein with his wife Elsa Einstein and Zionist leaders, including future President of IsraelChaim Weizmann, his wife Vera Weizmann, Menahem Ussishkin, and Ben-Zion Mossinson on arrival in New York City in 1921
In 1918, Einstein was one of the founding members of the German Democratic Party, a liberal party.[134]:83 However, later in his life, Einstein’s political view was in favor of socialism and critical of capitalism, which he detailed in his essays such as “Why Socialism?“.[135][136] Einstein offered and was called on to give judgments and opinions on matters often unrelated to theoretical physics or mathematics.[101] He strongly advocated the idea of a democratic global government that would check the power of nation-states in the framework of a world federation.[137] The FBI created a secret dossier on Einstein in 1932, and by the time of his death his FBI file was 1,427 pages long.[138]
Einstein was deeply impressed by Mahatma Gandhi. He exchanged written letters with Gandhi, and called him “a role model for the generations to come” in a letter writing about him.[139]
Einstein spoke of his spiritual outlook in a wide array of original writings and interviews.[140] Einstein stated that he had sympathy for the impersonal pantheistic God of Baruch Spinoza’s philosophy.[141] He did not believe in a personal God who concerns himself with fates and actions of human beings, a view which he described as naïve.[142] He clarified, however, that “I am not an atheist”,[143] preferring to call himself an agnostic,[144] or a “deeply religious nonbeliever”.[142] When asked if he believed in an afterlife, Einstein replied, “No. And one life is enough for me.”[145]
THE HUMAN BRAIN/NEUROLOGY/STEM CELLS/ATOMS/
https://www.livescience.com/mystery-of-proton-neutron-behavior-in-nucleus.html?utm_source=Selligent&utm_medium=email&utm_campaign=9160&utm_content=LVS_newsletter+&utm_term=2680971&m_i=cNX89wE9cdN1KR6Ux6yrkA77hbA0sxk1tFRQxK54zDq9lu_4FR4NMRZOaBGJYkn5Kr25kWEQMWo3Z2lWOZHRrjVL5eZOYQNDzyUK6KXccH
No one really knows what happens inside an atom. But two competing groups of scientists think they’ve figured it out. And both are racing to prove that their own vision is correct.
Here’s what we know for sure: Electrons whiz around “orbitals” in an atom’s outer shell. Then there’s a whole lot of empty space. And then, right in the center of that space, there’s a tiny nucleus — a dense knot of protons and neutrons that give the atom most of its mass. Those protons and neutrons cluster together, bound by what’s called the strong force. And the numbers of those protons and neutrons determine whether the atom is iron or oxygen or xenon, and whether it’s radioactive or stable.
Still, no one knows how those protons and neutrons (together known as nucleons) behave inside an atom. Outside an atom, protons and neutrons have definite sizes and shapes. Each of them is made up of three smaller particles called quarks, and the interactions between those quarks are so intense that no external force should be able to deform them, not even the powerful forces between particles in a nucleus. But for decades, researchers have known that the theory is in some way wrong. Experiments have shown that, inside a nucleus, protons and neutrons appear much larger than they should be. Physicists have developed two competing theories that try to explain that weird mismatch, and the proponents of each are quite certain the other is incorrect. Both camps agree, however, that whatever the correct answer is, it must come from a field beyond their own.
Related: The Biggest Unsolved Mysteries in Physics
Since at least the 1940s, physicists have known that nucleons move in tight little orbitals within the nucleus, Gerald Miller, a nuclear physicist at the University of Washington, told Live Science. The nucleons, confined in their movements, have very little energy. They don’t bounce around much, restrained by the strong force.
In 1983, physicists at the European Organization for Nuclear Research (CERN) noticed something strange: Beams of electrons bounced off iron in a way that was very different from how they bounced off free protons, Miller said. That was unexpected; if the protons inside hydrogen were the same size as the protons inside iron, the electrons should have bounced off in much the same way.
At first, researchers didn’t know what they were looking at.
But over time, scientists came to believe it was a size issue. For some reason, protons and neutrons inside heavy nuclei act as if they are much larger than when they are outside the nuclei. Researchers call this phenomenon the EMC effect, after the European Muon Collaboration — the group that accidentally discovered it. It violates existing theories of nuclear physics.
Or Hen, a nuclear physicist at MIT, has an idea that could potentially explain what’s going on.
While quarks, the subatomic particles that make up nucleons, strongly interact within a given proton or neutron, quarks in different protons and neutrons can’t interact much with each other, he said. The strong force inside a nucleon is so strong it eclipses the strong force holding nucleons to other nucleons.
“Imagine sitting in your room talking to two of your friends with the windows closed,” Hen said.
https://www.livescience.com/quantum-world-flavor-anomalies.html?utm_source=Selligent&utm_medium=email&utm_campaign=9160&utm_content=LVS_newsletter+&utm_term=2680971&m_i=xugHRtC7mAa4mKgZkul5JMAes6eZ7dezSNsdLdWoUtA%2BVeoVUphA111PP76MaMa8cprKptCCxgYiHcNCnJyTIGAEvVNMsbKf3JZevwxxxk
The world of the teensy-tiny, the quantum realm, could have a favorite flavor.
We’re not talking about itty-bitty ice cream cones, of course. The world of particles is split into three camps, called “flavors” (don’t ask why). For example, the electrons represent one flavor, and there are two other particles with nearly identical properties, the muon and the tau, that have their own flavors. We’ve long suspected — but not proven — that all three flavors should be on equal footing.
But, alas, years of collider experiments are beginning to suggest that perhaps not everything is even-steven.
The results of these experiments are still tentative, and not significant enough to claim the firm discovery of a crack in the bible of particle physics called the Standard Model. However, if the results hold up, that could open the gateway to understanding everything from dark matter to the origins of the universe. You know, major unsolved problems in modern physics.
The trio in the room are three quarks inside a neutron or proton.
“A light breeze is blowing outside,” he said.
That light breeze is the force holding the proton or neutron to nearby nucleons that are “outside” the window. Even if a little snuck through the closed window, Hen said, it would barely affect you.
And as long as nucleons stay in their orbitals, that’s the case. However, he said, recent experiments have shown that at any given time, about 20% of the nucleons in a nucleus are in fact outside their orbitals. Instead, they’re paired off with other nucleons, interacting in “short range correlations.” Under those circumstances, the interactions between the nucleons are much higher-energy than usual, he said. That’s because the quarks poke through the walls of their individual nucleons and start to directly interact, and those quark-quark interactions are much more powerful than nucleon-nucleon interactions.
These interactions break down the walls separating quarks inside individual protons or neutrons, Hen said. The quarks making up one proton and the quarks making up another proton start to occupy the same space. This causes the protons (or neutrons, as the case may be) to stretch and blur, Hen said. They grow a lot, albeit for very short periods of time. That skews the average size of the entire cohort in the nucleus — producing the EMC effect.
WHAT SHOULD WE DO WITH THE “CONTRIBUTIONS” OF GREAT THINGS, FROM TERRIBLE/EVIL/NASTY PEOPLE or people who are “Perceived to be evil/nasty”; but seek change ??
TO BE CONT…
