Singer, songwriter. Jackson was born August 29, 1958, in Gary, Indiana, to an African-American working-class family. His father, Joseph Jackson, had been a guitarist but had put aside his musical aspirations to provide for his family as a crane operator. Believing his sons had talent, he molded them into a musical group in the early 1960s. At first, the Jackson Family performers consisted of Michael's older brothers Tito, Jermaine, and Jackie. Michael joined his siblings when he was five, and emerged as the group's lead vocalist. He showed remarkable range and depth for such a young performer, impressing audiences with his ability to convey complex emotions. Older brother Marlonalso became a member of the group, which evolved into the The Jackson 5.
Behind the scenes, Joseph Jackson pushed his sons to succeed. He was also reportedly known to become violent with them. Michael and his brothers spent endless hours rehearsing and polishing up their act. At first, the Jackson 5 played local gigs and built a strong following. They recorded one single on their own, "Big Boy" with the b-side "You've Changed," but it failed to generate much interest.
The Jackson 5 moved on to working an opening act for such R&B artists as Gladys Knight and the Pips, James Brown, and Sam and Dave. Many of these performers were signed to the legendary Motown record label, and it has been reported that Gladys Knight may have been the one to tell Motown founder Berry Gordy about the Jackson 5. Impressed by the group, Gordy signed them to his label in 1968.
Relocating to Los Angeles, Michael and his brothers started work on their music and dancing with their father as their manager. They lived with Gordy and also with Supremes singer Diana Ross when they first arrived there. In August 1969, the Jackson 5 was introduced to the music industry at a special event, and later served as the opening act for the Supremes. Their first album, Diana Ross Presents the Jackson 5, hit the charts in December of that year. It's first single, "I Want You Back," hit No. 1 on the Billboard Hot 100 chart in January 1970.
More chart-topping singles quickly followed, such as "ABC," "The Love You Save," and "I'll Be There." At the age of 13, Jackson launched a solo career in addition to his work with the Jackson 5. He made the charts in 1971 with "Got to Be There" from the album of the same name. His 1972 album, Ben, featured the eponymous ballad about a rat. The song became Jackson's first solo No. 1 single.
For several years, Michael Jackson and the Jackson 5 maintained a busy tour and recording schedule, under the supervision of Berry Gordy and his Motown staff. Gordy wrote many of the songs recorded by the group and by Michael Jackson as a solo artist. The group became so popular that they even had their own self-titled cartoon show, which ran from 1971 to 1973.
Despite Jackson's individual achievements and the group's great success, there was trouble between the Jacksons and their record company. Tensions mounted between Gordy and Joseph Jackson over the management of his children's careers, and their level of participation in making their music. The Jacksons wanted more control over their recordings, which led to most of the Jacksons breaking ties with Motown in 1975. Jermaine Jackson remained with the label and continued to pursue a solo career, having previously released several albums—none of which had matched the success of his younger brother Michael.
Now calling themselves the Jacksons, the group signed a new recording deal with Epic Records. With 1978's Destiny, Michael Jackson and his brothers (which by now included younger brother Randy) emerged as talented songwriters, penning all of the record's tracks. Working with producer Quincy Jones, Michael Jackson wowed the music world with his next solo album, 1979's Off the Wall. It featured ann infectious blend of pop and funk with such hit tracks as the Grammy Award-winning "Don't Stop 'til You Get Enough, "Rock with You," and the title track. He also found success with the ballad "She's Out of My Life."
The overwhelmingly positive response to Michael's latest solo album also helped buoy the Jacksons' career as well. Triumph (1980) sold more than one million copies, and the brothers went on an extensive tour to support the recording. Jackson, however, began to branch out on his own more. Teaming up with rock legend Paul McCartney, Jackson sang on their 1982 duet, "The Girl Is Mine," which nearly reached the top of the pop charts.
The song also appeared on his next solo album, Thriller (1982), which generated seven top 10 hits. On a television special honoring Motown, Jackson performed "Billie Jean" eventually a number one hit and debuted his soon-to-be-famous dance move called the moonwalk. Jackson, a veteran performer by this time, created this step himself and choreographed the dance sequences for the video of his other No. 1 hit, "Beat It."
His most elaborate video, however, was for the album's title track. John Landis directed the horror-tinged video, which featured complex dance scenes, special effects, and a voice-over done by actor Vincent Price. The video for "Thriller" became immensely popular, boosting sales for the already successful album. It stayed on the charts for 80 weeks, holding the No. 1 spot for 37 weeks. In addition to its unparalleled commercial achievements, Thriller earned 12 Grammy Award nominations and won eight of those awards.
Jackson's Grammy victories showcased the diverse nature of his work. For his songwriting talents, he received the Grammy Award for Best Rhythm and Blues Song for "Billie Jean." Jackson also won Best Pop Vocal Performance, Male for "Thriller" and Best Rock Vocal Performance, Male for "Beat It." With co-producer Quincy Jones, he shared the Grammy Award for Album of the Year.
There is some disagreement over how close Lucas was to Johnson. Lucas claims Johnson took him under his wing, and eventually became Bumpy's "right-hand-man." Others close to Johnson, including his widow, Mayme, testify that Johnson distrusted Lucas and never made him more than a flunky. What is true is that Frank Lucas learned well from Johnson, but took his teachings to a whole new level, developing one of the most lucrative crime organizations of the 20th century. Johnson died in 1968, leaving the control of Harlem up for grabs. Lucas took the opportunity to seize as much territory as he could.
Frank Lucas wanted to be rich what he called "Donald Trump rich." He not only believed he could make it big in the drug world, he understood how to do it. He started with the planning. He called it "backtracking." He would hole himself up in a hotel room, away from any distractions, for a month or two at a time. He would look back on all his past experiences and what he'd learned. Then he'd look forward to the future including every possible detail and the detail of the details, making sure he mentally walked through every step of the operation.
Frank Lucas realized that to take over Johnson's operation he needed to break the monopoly of the Italian Mafia. His idea was to bypass the Mafia's heroin trade in Harlem, and go directly to the source of the drug. By 1968, the Vietnam War had been raging for several years. It was common knowledge that U.S service personnel had been exposed to many different illegal drugs, including heroin. When they came back to the States with their addictions, they sought out new sources. By the late 1960s and early 1970s, dope was rampant in most large American cities, with "brand names" like "Mean Machine," "Can't Get Enough of that Funky Stuff," and "Harlem Hijack." Lucas knew he could meet this demand and make a hefty profit if he could get the drugs directly from the source. He decided to travel to southeast Asia.
Frank Lucas had what is called an "expectation of invincibility." He really thought nothing of getting on a plane by himself and traveling half way around the world to Thailand. He knew little about the country, and didn't speak the language. Yet, he was engaging in one of the most deadly occupations imaginable international drug trafficking. On his arrival in Bangkok in 1968, Lucas checked into the Dusit Thani Hotel. There he met Leslie "Ike" Atkinson at Jack's American Bar, a rest and relaxation hangout for African-American soldiers. Atkinson ran the bar and was well connected with many U.S. Army soldiers in southeast Asia, often supplying them with drugs on demand. Atkinson also hailed from Greensboro, North Carolina, and had married one of Lucas' cousins. Thus, Lucas initiated the policy of only hiring relatives or close friends.
At the top of his game creatively and commercially, Jackson signed a $5 million endorsement deal with Pepsi-Cola around this time. He, however, was badly injured while filming a commercial for the soda giant in 1984, suffering burns to his face and scalp. Jackson had surgery to repair his injuries, and is believed to have begun experimenting with plastic surgery around this time. His face, especially his nose, would become dramatically altered in the coming years.
That same year, Jackson embarked on his final tour with the Jacksons to the support the album Victory. The one major hit from the recording was Michael Jackson's duet with Mick Jagger, "State of Shock." In 1985, Jackson showed his altruistic side, co-writing and singing on "We Are the World," a charity single for USA for Africa. A veritable who's who of music stars participated in the project including Lionel Ritchie, Ray Charles, Bob Dylan, Willie Nelson, Bruce Springsteen, and Tina Turner.
Releasing his follow-up to Thriller in 1987, Jackson reached the top of the charts with Bad. It featured five No. 1 hits, including "Man in the Mirror," "The Way You Make Me Feel," and the title track, which was supported by a video directed by Martin Scorsese. Jackson spent more than a year on the road, playing concerts to promote the album. While successful, Bad was unable to duplicate the phenomenal sales of Thriller.
Raised as a Jehovah's Witness, Jackson was a shy and quiet person off-stage. He was never truly comfortable with the media attention he received and rarely gave interviews. By the late 1980s, Jackson had created his own fantasy retreat a California ranch called Neverland. There he kept exotic pets, such as a chimpanzee named Bubbles, and had his own amusement rides. To some, it seemed that Jackson perhaps was exploring a second childhood. He sometimes opened up the ranch for children's events. Rumors swirled around him, including that he was lightening the color of his skin to appear more white and slept in a special chamber to increase his life span.
In 1991, Jackson released Dangerous, featuring the hit "Black or White." The video for this song included an appearance by child star Macaulay Culkin, and was directed by John Landis. In the video's final minutes, Jackson caused some controversy with his sexual gesturing and violent actions. Many were surprised to see the Peter Pan-like Jackson act this way.
Jackson's music continued to enjoy wide-spread popularity in the upcoming years. In 1993, he performed several important events, including the half-time show at Superbowl XXVII. Jackson gave a rare television interview, which aired that February. Sitting down with Oprah Winfrey, he explained that the change in his skin tone was the result of a disease known as vitiligo. Jackson also opened about the abuse he suffered from his father.
Allegations of child molestation against Jackson emerged later that year. A 13-year-old boy claimed that the music star had fondled him. Jackson was known to have sleepovers with boys at his Neverland Ranch, but this was the first public charge of wrongdoing. The police searched the ranch, but they found no evidence to support the claim. The following year, Jackson settled the case out of court with the boy's family. Other allegations emerged, but Jackson maintained his innocence.
Max Planck Biography
Max Planck was born on April 23, 1858, Kiel, Schleswig [Germany]. He was died Oct. 4, 1947, Göttingen, W.Ger. theoretical physicist who originated quantum theory, which won him the Nobel Prize for Physics in 1918.
Planck made many contributions to theoretical physics, but his fame rests primarily on his role as originator of the quantum theory. This theory revolutionized our understanding of atomic and subatomic processes, just as Albert Einstein's theory of relativity revolutionized our understanding of space and time. Together they constitute the fundamental theories of 20th-century physics. Both have forced man to revise some of his most cherished philosophical beliefs, and both have led to industrial and military applications that affect every aspect of modern life.
Early life.
Max Karl Ernst Ludwig Planck was the sixth child of a distinguished jurist and professor of law at the University of Kiel. The long family tradition of devotion to church and state, excellence in scholarship, incorruptibility, conservatism, idealism, reliability, and generosity became deeply ingrained in Planck's own life and work. When Planck was nine years old, his father received an appointment at the University of Munich, and Planck entered the city's renowned Maximilian Gymnasium, where a teacher, Hermann Müller, stimulated his interest in physics and mathematics. But Planck excelled in all subjects, and after graduation at age 17 he faced a difficult career decision. He ultimately chose physics over classical philology or music because he had dispassionately reached the conclusion that it was in physics that his greatest originality lay. Music, nonetheless, remained an integral part of his life. He possessed the gift of absolute pitch and was an excellent pianist who daily found serenity and delight at the keyboard, enjoying especially the works of Schubert and Brahms. He also loved the outdoors, taking long walks each day and hiking and climbing in the mountains on vacations, even in advanced old age.
Planck entered the University of Munich in the fall of 1874 but found little encouragement there from physics professor Philipp von Jolly. During a year spent at the University of Berlin (1877–78), he was unimpressed by the lectures of Hermann von Helmholtz and Gustav Robert Kirchhoff, despite their eminence as research scientists. His intellectual capacities were, however, brought to a focus as the result of his independent study, especially of Rudolf Clausius' writings on thermodynamics. Returning to Munich, he received his doctoral degree in July 1879 (the year of Einstein's birth) at the unusually young age of 21. The following year he completed his Habilitationsschrift (qualifying dissertation) at Munich and became a Privatdozent (lecturer). In 1885, with the help of his father's professional connections, he was appointed ausserordentlicher Professor (associate professor) at the University of Kiel. In 1889, after the death of Kirchhoff, Planck received an appointment to the University of Berlin, where he came to venerate Helmholtz as a mentor and colleague. In 1892 he was promoted to ordentlicher Professor (full professor). He had only nine doctoral students altogether, but his Berlin lectures on all branches of theoretical physics went through many editions and exerted great influence. He remained in Berlin for the rest of his active life.
Planck recalled that his “original decision to devote myself to science was a direct result of the discovery . . . that the laws of human reasoning coincide with the laws governing the sequences of the impressions we receive from the world about us; that, therefore, pure reasoning can enable man to gain an insight into the mechanism of the [world]. . . .” He deliberately decided, in other words, to become a theoretical physicist at a time when theoretical physics was not yet recognized as a discipline in its own right. But he went further: he concluded that the existence of physical laws presupposes that the “outside world is something independent from man, something absolute, and the quest for the laws which apply to this absolute appeared . . . as the most sublime scientific pursuit in life.”
The first instance of an absolute in nature that impressed Planck deeply, even as a Gymnasium student, was the law of the conservation of energy, the first law of thermodynamics. Later, during his university years, he became equally convinced that the entropy law, the second law of thermodynamics, was also an absolute law of nature. The second law became the subject of his doctoral dissertation at Munich, and it lay at the core of the researches that led him to discover the quantum of action, now known as Planck's constant h, in 1900.
In 1859–60 Kirchhoff had defined a blackbody as an object that reemits all of the radiant energy incident upon it; i.e., it is a perfect emitter and absorber of radiation. There was, therefore, something absolute about blackbody radiation, and by the 1890s various experimental and theoretical attempts had been made to determine its spectral energy distribution the curve displaying how much radiant energy is emitted at different frequencies for a given temperature of the blackbody. Planck was particularly attracted to the formula found in 1896 by his colleague Wilhelm Wien at the Physikalisch-Technische Reichsanstalt (PTR) in Berlin-Charlottenburg, and he subsequently made a series of attempts to derive “Wien's law” on the basis of the second law of thermodynamics. By October 1900, however, other colleagues at the PTR, the experimentalists Otto Richard Lummer, Ernst Pringsheim, Heinrich Rubens, and Ferdinand Kurlbaum, had found definite indications that Wien's law, while valid at high frequencies, broke down completely at low frequencies.
Planck learned of these results just before a meeting of the German Physical Society on October 19. He knew how the entropy of the radiation had to depend mathematically upon its energy in the high-frequency region if Wien's law held there. He also saw what this dependence had to be in the low-frequency region in order to reproduce the experimental results there. Planck guessed, therefore, that he should try to combine these two expressions in the simplest way possible, and to transform the result into a formula relating the energy of the radiation to its frequency.
The result, which is known as Planck's radiation law, was hailed as indisputably correct. To Planck, however, it was simply a guess, a “lucky intuition”. If it was to be taken seriously, it had to be derived somehow from first principles. That was the task to which Planck immediately directed his energies, and by December 14, 1900, he had succeeded—but at great cost. To achieve his goal, Planck found that he had to relinquish one of his own most cherished beliefs, that the second law of thermodynamics was an absolute law of nature. Instead he had to embrace Ludwig Boltzmann's interpretation, that the second law was a statistical law. In addition, Planck had to assume that the oscillators comprising the blackbody and re-emitting the radiant energy incident upon them could not absorb this energy continuously but only in discrete amounts, in quanta of energy; only by statistically distributing these quanta, each containing an amount of energy h proportional to its frequency, over all of the oscillators present in the blackbody could Planck derive the formula he had hit upon two months earlier. He adduced additional evidence for the importance of his formula by using it to evaluate the constant h (his value was 6.55 10-27 erg-second, close to the modern value), as well as the so-called Boltzmann constant (the fundamental constant in kinetic theory and statistical mechanics), Avogadro's number, and the charge of the electron. As time went on physicists recognized ever more clearly that because Planck's constant was not zero but had a small but finite value the microphysical world, the world of atomic dimensions, could not in principle be described by ordinary classical mechanics. A profound revolution in physical theory was in the making.
Planck's concept of energy quanta, in other words, conflicted fundamentally with all past physical theory. He was driven to introduce it strictly by the force of his logic; he was, as one historian put it, a reluctant revolutionary. Indeed, it was years before the far-reaching consequences of Planck's achievement were generally recognized, and in this Einstein played a central role. In 1905, independently of Planck's work, Einstein argued that under certain circumstances radiant energy itself seemed to consist of quanta (light quanta, later called photons), and in 1907 he showed the generality of the quantum hypothesis by using it to interpret the temperature dependence of the specific heats of solids. In 1909 Einstein introduced the wave–particle duality into physics. In October 1911 he was among the group of prominent physicists who attended the first Solvay conference in Brussels. The discussions there stimulated Henri Poincaré to provide a mathematical proof that Planck's radiation law necessarily required the introduction of quanta—a proof that converted James (later Sir James) Jeans and others into supporters of the quantum theory. In 1913 Niels Bohr also contributed greatly to its establishment through his quantum theory of the hydrogen atom. Ironically, Planck himself was one of the last to struggle for a return to classical theory, a stance he later regarded not with regret but as a means by which he had thoroughly convinced himself of the necessity of the quantum theory. Opposition to Einstein's radical light quantum hypothesis of 1905 persisted until after the discovery of the Compton effect in 1922.
The result, which is known as Planck's radiation law, was hailed as indisputably correct. To Planck, however, it was simply a guess, a “lucky intuition.” If it was to be taken seriously, it had to be derived somehow from first principles. That was the task to which Planck immediately directed his energies, and by December 14, 1900, he had succeeded—but at great cost. To achieve his goal, Planck found that he had to relinquish one of his own most cherished beliefs, that the second law of thermodynamics was an absolute law of nature. Instead he had to embrace Ludwig Boltzmann's interpretation, that the second law was a statistical law. In addition, Planck had to assume that the oscillators comprising the blackbody and re-emitting the radiant energy incident upon them could not absorb this energy continuously but only in discrete amounts, in quanta of energy; only by statistically distributing these quanta, each containing an amount of energy h proportional to its frequency, over all of the oscillators present in the blackbody could Planck derive the formula he had hit upon two months earlier. He adduced additional evidence for the importance of his formula by using it to evaluate the constant h (his value was 6.55 10-27 erg-second, close to the modern value), as well as the so-called Boltzmann constant (the fundamental constant in kinetic theory and statistical mechanics), Avogadro's number, and the charge of the electron. As time went on physicists recognized ever more clearly that—because Planck's constant was not zero but had a small but finite value—the microphysical world, the world of atomic dimensions, could not in principle be described by ordinary classical mechanics. A profound revolution in physical theory was in the making.
Planck's concept of energy quanta, in other words, conflicted fundamentally with all past physical theory. He was driven to introduce it strictly by the force of his logic; he was, as one historian put it, a reluctant revolutionary. Indeed, it was years before the far-reaching consequences of Planck's achievement were generally recognized, and in this Einstein played a central role. In 1905, independently of Planck's work, Einstein argued that under certain circumstances radiant energy itself seemed to consist of quanta (light quanta, later called photons), and in 1907 he showed the generality of the quantum hypothesis by using it to interpret the temperature dependence of the specific heats of solids. In 1909 Einstein introduced the wave–particle duality into physics. In October 1911 he was among the group of prominent physicists who attended the first Solvay conference in Brussels. The discussions there stimulated Henri Poincaré to provide a mathematical proof that Planck's radiation law necessarily required the introduction of quanta a proof that converted James (later Sir James) Jeans and others into supporters of the quantum theory. In 1913 Niels Bohr also contributed greatly to its establishment through his quantum theory of the hydrogen atom. Ironically, Planck himself was one of the last to struggle for a return to classical theory, a stance he later regarded not with regret but as a means by which he had thoroughly convinced himself of the necessity of the quantum theory. Opposition to Einstein's radical light quantum hypothesis of 1905 persisted until after the discovery of the Compton effect in 1922.
Albert Einstein Biography
Albert Einstein was born on March 14, 1879, Ulm, Württemberg, Ger and He was died on April 18, 1955, Princeton, N.J., U.S. German-born physicist who developed the special and general theories of relativity and won the Nobel Prize for Physics in 1921 for his explanation of the photoelectric effect. Einstein is generally considered the most influential physicist of the 20th century.
Education
Einstein's parents were secular, middle-class Jews. His father, Hermann Einstein, was originally a featherbed salesman and later ran an electrochemical factory with moderate success. His mother, the former Pauline Koch, ran the family household. He had one sister, Maja, born two years after Albert.
Einstein would write that two “wonders” deeply affected his early years. The first was his encounter with a compass at age five. He was mystified that invisible forces could deflect the needle. This would lead to a lifelong fascination with invisible forces. The second wonder came at age 12 when he discovered a book of geometry, which he devoured, calling it his “sacred little geometry book.”
Einstein became deeply religious at age 12, even composing several songs in praise of God and chanting religious songs on the way to school. This began to change, however, after he read science books that contradicted his religious beliefs. This challenge to established authority left a deep and lasting impression. At the Luitpold Gymnasium, Einstein often felt out of place and victimized by a Prussian-style educational system that seemed to stifle originality and creativity. One teacher even told him that he would never amount to anything.
Yet another important influence on Einstein was a young medical student, Max Talmud (later Max Talmey), who often had dinner at the Einstein home. Talmud became an informal tutor, introducing Einstein to higher mathematics and philosophy. A pivotal turning point occurred when Einstein was 16. Talmud had earlier introduced him to a children's science series by Aaron Bernstein, Naturwissenschaftliche Volksbucher (1867–68; Popular Books on Physical Science), in which the author imagined riding alongside electricity that was traveling inside a telegraph wire. Einstein then asked himself the question that would dominate his thinking for the next 10 years: What would a light beam look like if you could run alongside it? If light were a wave, then the light beam should appear stationary, like a frozen wave. Even as a child, though, he knew that stationary light waves had never been seen, so there was a paradox. Einstein also wrote his first “scientific paper” at that time (“The Investigation of the State of Aether in Magnetic Fields”).
Einstein's education was disrupted by his father's repeated failures at business. In 1894, after his company failed to get an important contract to electrify the city of Munich, Hermann Einstein moved to Milan, Italy, to work with a relative. Einstein was left at a boarding house in Munich and expected to finish his education. Alone, miserable, and repelled by the looming prospect of military duty when he turned 16, Einstein ran away six months later and landed on the doorstep of his surprised parents. His parents realized the enormous problems that he faced as a school dropout and draft dodger with no employable skills. His prospects did not look promising.
Fortunately, Einstein could apply directly to the Eidgenössische Polytechnische Schule (“Swiss Federal Polytechnic School”; in 1911, following expansion in 1909 to full university status, it was renamed the Eidgenössische Technische Hochschule, or “Swiss Federal Institute of Technology”) in Zürich without the equivalent of a high school diploma if he passed its stiff entrance examinations. His marks showed that he excelled in mathematics and physics, but he failed at French, chemistry, and biology. Because of his exceptional math scores, he was allowed into the polytechnic on the condition that he first finish his formal schooling. He went to a special high school run by Jost Winteler in Aarau, Switz., and graduated in 1896. He also renounced his German citizenship at that time. (He was stateless until 1901, when he was granted Swiss citizenship.) He became lifelong friends with the Winteler family, with whom he had been boarding. (Winteler's daughter, Marie, was Einstein's first love; Einstein's sister Maja would eventually marry Winteler's son Paul; and his close friend Michele Besso would marry their eldest daughter, Anna.)
Einstein would recall that his years in Zürich were some of the happiest years of his life. He met many students who would become loyal friends, such as Marcel Grossmann, a mathematician, and Besso, with whom he enjoyed lengthy conversations about space and time. He also met his future wife, Mileva Maric, a fellow physics student from Serbia.
Independent scholar and special relativity
After graduation in 1900, Einstein faced one of the greatest crises in his life. Because he studied advanced subjects on his own, he often cut classes; this earned him the animosity of some professors, especially Heinrich Weber. Unfortunately, Einstein asked Weber for a letter of recommendation. Einstein was subsequently turned down for every academic position that he applied to. He later wrote,
Meanwhile, Einstein's relationship with Maric deepened, but his parents vehemently opposed the relationship. His mother especially objected to her Serbian background (Maric's family was Eastern Orthodox Christian). Einstein defied his parents, however, and he and Maric even had a child, Lieserl, in January1902, whose fate is unknown. (It is commonly thought that she died of scarlet fever or was given up for adoption.)
In 1902 Einstein reached perhaps the lowest point in his life. He could not marry Maric and support a family without a job, and his father's business went bankrupt. Desperate and unemployed, Einstein took lowly jobs tutoring children, but he was fired from even these jobs.
The turning point came later that year, when the father of his lifelong friend, Marcel Grossman, was able to recommend him for a position as a clerk in the Swiss patent office in Bern. About then Einstein's father became seriously ill and, just before he died, gave his blessing for his son to marry Maric. For years, Einstein would experience enormous sadness remembering that his father had died thinking him a failure.
General relativity
At first Einstein's 1905 papers were ignored by the physics community. This began to change after he received the attention of just one physicist, perhaps the most influential physicist of his generation, Max Planck, the founder of the quantum theory.
Soon, owing to Planck's laudatory comments and to experiments that gradually confirmed his theories, Einstein was invited to lecture at international meetings, such as the Solvay Conferences, and he rose rapidly in the academic world. He was offered a series of positions at increasingly prestigious institutions, including the University of Zürich, the University of Prague, the Swiss Federal Institute of Technology, and finally the University of Berlin, where he served as director of the Kaiser Wilhelm Institute for Physics from 1913 to 1933 (although the opening of the institute was delayed until 1917).
Even as his fame spread, Einstein's marriage was falling apart. He was constantly on the road, speaking at international conferences, and lost in contemplation of relativity. The couple argued frequently about their children and their meager finances. Convinced that his marriage was doomed, Einstein began an affair with a cousin, Elsa Löwenthal, whom he later married. (Elsa was a first cousin on his mother's side and a second cousin on his father's side.) When he finally divorced Mileva in 1919, he agreed to give her the money he might receive if he ever won a Nobel Prize.
Sania Mirza is an Indian Tennis Player
Sania Mirza was born in Mumbai, India on the 15th November, 1986 to Mr. Imaran Mirza and Naseema. Saniya Mirza’s father Imran was a sports journalist previously after that he went into the printing business and finally he became a builder and her mother Naseema was associated with the printing industry. The family later relocated themselves in the city of Hyderabad. Saniya Mirza got her schooling from Nasr School Khairatabad and passed her SSC examination with first division securing 63% marks.
Saniya Mirza has got a younger sister by the name of Anam. Saniya was drawn to the lawn tennis by her father; she started playing tennis at the tender age of six at Nizam Club Hyderabad. When Saniya was first taken to the coach he refused to coach her, later on after a week he called up the parents of Saniya and told them that he has never seen such a talent at such a tender age. Her initial training was handled by CK Bhupati father of Mahesh Bhupati, the legendary Indian tennis player.
Sania Mirza’s father was unable to take care of the expenses of the training of Saniya therefore he approached some business houses for help, GVK industries and Adidas started to sponsor her from the age of 12 years. Later on her father Imran took over as her coach. Her physiotherapist is Badrinath.
Sania Mirza learnt the professional tennis at Sinnet Tennis Academy in Secunderabad after that she moved to the Ace Tennis Academy in the United States. Currently her professional career is being managed by Global Sports, a company associated with Mahesh Bhupati and she has appointed Bob Brett who was previously the coach of Boris Becker as a specialist advisor.
Saniya Mirza started playing in international tournaments from the year 1999 when she first represented India in the World Junior Championship, Jakarta; after that Saniya went on to participate in the Asian Games in the year with Paes where she won a bronze medal. She again did India proud when she figured in the main draw for the girls doubles junior Wimbledon Tennis tournament with a 13 year old Russian player Alisa Kleybanova and won the Grand Slam title. Doing so Saniya became the first youngest Indian player to do so.