Muhammad: A Prophet for Our Time by Karen Amstrong | Download Free E-Book

Muhammad was born in 570 CE, and over the following sixty years built a thriving spiritual community, laying the foundations of a religion that changed the course of world history. There is more historical data on his life than on that of the founder of any other major faith, and yet his story is little known. Karen Armstrong's immaculately researched new biography of Muhammad will enable readers to understand the true origins and spirituality of a faith that is all too often misrepresented as cruel, intolerant, and inherently violent. An acclaimed authority on religious and spiritual issues, Armstrong offers a balanced, in-depth portrait, revealing the man at the heart of Islam by dismantling centuries of misconceptions. Armstrong demonstrates that Muhammad's life--a pivot point in history--has genuine relevance to the global crises we face today.

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Leonardo da Vinci (1452-1519)

Italian painter born at Vinci, next to Florence, died at Chateaux de Cloux, in France, near Ambroise. He is mostly known as a painter, having authored the "The Virgin and the Child with St. Anne", "Mona Lisa", (also known as "La Giaconda"), "The Last Supper", "St. John the Baptist", "The Madonna Of The Rocks", etc.

Leonardo da Vinci was a savant sketch artist, a wonderful colourist, excelling at mixing mild tones with the technique of chiaroscuro. He was also a sculptor, a physicist, an engineer, philosopher, writer, poet and musician. He was distinguished in all these branches of art and science.

Leonardo da Vinci is one of the most complete and accomplished geniuses of the Renaissance. Legend has it that he died in the arms of King Francois the 1st (the alleged scene serves as an inspiration for the painting "The Death of Leonardo" by Giroux). 

 Anatomical Study (heart and vessels) by Leonardo da Vinci, 1500

  The heart is a hollow muscle that pumps blood throughout the blood vessels by repeated, rhythmic contractions. It is found in all animals with a circulatory system (including all vertebrates).^[1]

The term cardiac (as in cardiology) means "related to the heart" and comes from the Greek καρδιά, kardia, for "heart".The vertebrate heart is principally composed of cardiac muscle and connective tissue. Cardiac muscle is an involuntary striated muscle tissue found only in this organ and responsible for the ability of the heart to pump blood.

The average human heart, beating at 72 beats per minute, will beat approximately 2.5 billion times during an average 66 year lifespan. It weighs approximately 250 to 300 grams (9 to 11 oz) in females and 300 to 350 grams (11 to 12 oz) in males.^[2] 

Are Doctors Too Wary of Drug Companies?

Not long ago, I asked a colleague for advice on a patient. He offered up a couple of treatment options, then stopped to show me a new medical app on his electronic tablet. With a few swipes of his finger, he summoned a compilation of research articles, synopses and even entire textbooks that, printed and bound, would have filled shelves in a library.

Dr. Pauline Chen on medical care.

“But do you know what the best part is?” he asked with a twinkle in his eye. I thought of the exhaustive reference material and the seemingly endless scroll of diagnoses that were all so easy to access on the small screen balanced on his knees.

“The best part is that none of this is sponsored by Pharma!” he said with a broad smile. “There’s no bias.”

My colleague is not the only doctor who feels that way, according to a recent study published in The New England Journal of Medicine.

For years, most doctors have had a predictable, if not close, relationship with the pharmaceutical industry. Companies handed out office tchotchkes, paid for staff lunches and distributed drug samples for patients. More significantly, drug companies were important sources of biomedical research money, particularly during periods when federal support wavered. It was understood that the companies providing funding would leave the researchers alone to design and conduct the study, analyze the data and write up the results.

That understanding began to fray about a decade ago when doctors, and patients, began to realize that drug companies were becoming too involved with the research they were supporting. For example, one major pharmaceutical firm manipulated data and underestimated the risk of heart attacks, strokes and deaths in a large study of a drug for arthritis. The drug was eventually withdrawn from the market, but not before 80 million patients had used it, with annual sales topping $2.5 billion.

The case highlighted the dangers of industry sponsorship of research into new drugs, and the public became eager to expose any potential conflict of interest, particularly for doctors. Within a few years, a new standard of transparency in medicine emerged. Brightly labeled drug company pens became an embarrassment; lunches on the drug company tab and sponsored conferences turned suspect; and editors at numerous medical journals published lengthy screeds detailing their disclosure requirements.

The new skepticism and transparency were no doubt good for patients and doctors, but this recent study reveals that in our zeal to single out the pharmaceutical industry’s biases, we may have become blind to our own.

The researchers created several hypothetical drug studies, then asked a group of practicing physicians to rate the “studies” and the likelihood they would prescribe the new “drug.” The researchers purposefully varied the quality of the studies and the disclosures – some of the made-up studies disclosed that they had received pharmaceutical company funding, others said they’d received support from the National Institutes of Health, and the rest listed no funding disclosures at all.

Most of the doctors were able to assess the quality of the research pretty accurately. After reading the less rigorous studies, the ones that weren’t designed, conducted or analyzed well, the doctors were hesitant to prescribe the new drugs under study; seeing the more rigorous studies, they were more willing to do so.

But the researchers also found that the doctors were also unduly swayed by any mention of industry funding. Regardless of the quality, if a study was supported by a pharmaceutical company, doctors were less willing to consider prescribing the studied drug and less likely to assess the quality of the research with accuracy.

“Some amount of skepticism is warranted,” said Dr. Aaron S. Kesselheim, lead author of the study and an assistant professor of medicine in the division of pharmacoepidemiology and pharmacoeconomics at the Brigham and Women’s Hospital in Boston. “But ultimately it should be the quality of the study and the impact of the results that determine your confidence about using a new drug, not who was funding it.”

Being overly skeptical has serious implications for patient care. The pharmaceutical industry, along with medical device and biotechnology firms, continues to finance a majority of current research. In 2007, for example, industry was responsible for nearly 60 percent of the more than $100 billion spent on research. Much industry-supported research focuses on the side effects of new drugs. By writing off such research, doctors risk overlooking findings that may have important treatment implications for their patients, like a new cholesterol-lowering drug that is found to have less of an effect on energy and blood sugar levels than other similar medications.

Dr. Kesselheim and his collaborators believe what is needed in biomedical research is even greater transparency. Such openness would include more independent third-party statistical reviews to ensure that data is not being manipulated or misleading and wider use of public Web sites like ClinicalTrials.gov, regardless of the source of funding.

ClinicalTrials.gov lists study details like objectives, design and data gathered, providing doctors and patients alike with a way to confirm that no data is being selectively reported or distorted. But participation on the site is voluntary, and pharmaceutical, medical device and biomedical companies are often hesitant to share what they consider proprietary data, choosing instead to list only selective details, or no information at all.

Until full transparency is achieved and such details are available to all on the Web or for independent statistical reviews, Dr. Kesselheim and his collaborators suggest that both doctors and patients remain alert to potential biases — Big Pharma’s, and also their own.

“Excessive skepticism,” Dr. Kesselheim observed, “is as much a bad thing as naïveté.”

Source:nyt

A Brief History of Time-Stephen Hawking

A Brief History of Time attempts to explain a range of subjects in cosmology, including the Big Bang, black holes and light cones, to the nonspecialist reader. Its main goal is to give an overview of the subject but, unusual for a popular science book, it also attempts to explain some complex mathematics. The 1996 edition of the book and subsequent editions discuss the possibility of time travel and wormholes and explore the possibility of having a universe without a quantum singularity at the beginning of time.

The author notes that an editor warned him that for every equation in the book the readership would be halved, hence it includes only a single equation: E = mc². Early in 1983, Hawking approached Simon Mitton, the editor in charge of astronomy books at Cambridge University Press, with his ideas for a popular book on cosmology. Mitton was doubtful about all the equations in the draft manuscript, which he felt would put off the buyers in airport bookshops that Hawking wished to reach. It was with some difficulty that he persuaded Hawking to drop all but one equation.^[4] In addition to Hawking's notable abstention from presenting equations, the book also simplifies matters by means of illustrations throughout the text, depicting.

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The Meaning of Relativity - Albert Eistein

in 1921, five years after the appearance of his comprehensive paper on general relativity and twelve years before he left Europe permanently to join the Institute for Advanced Study, Albert Einstein visited Princeton University, where he delivered the Stafford Little Lectures for that year. These four lectures constituted an overview of his then controversial theory of relativity. Princeton University Press made the lectures available under the title The Meaning of Relativity, the first book by Einstein to be produced by an American publisher. As subsequent editions were brought out by the Press, Einstein included new material amplifying the theory. A revised version of the appendix "Relativistic Theory of the Non-Symmetric Field," added to the posthumous edition of 1956, was Einstein's last scientific paper.

Review:

"A condensed unified presentation intended for one who has already gone through a standard text and digested the mechanics of tensor theory and the physical basis of relativity. Einstein's little book then serves as an excellent tying-together of loose ends and as a broad survey of the subject."--Physics Today

Table of Contents:

Introduction by Brian Greene vii

A Note on the Fifth Edition xxv

SPACE AND TIME IN PRE-RELATIVITY PHYSICS 1

THE THEORY OF SPECIAL RELATIVITY 24

THE GENERAL THEORY OF RELATIVITY 55

THE GENERAL THEORY OF RELATIVITY (CONTINUED) 79

APPENDIX FOR THE SECOND EDITION 109

APPENDIX II. RELATIVISTIC THEORY OF THE

NON-SYMMETRIC FIELD 133

Index 167

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Milan In Russian's Hell

MILAN – In football, evening’s like this are called turning points. In one of the hardest places in Europe to travel to, Milan come out 3-2 winners and get back the points dropped against Anderlecht. It needed a big performance from the players who started well and took the game back in hand after some difficult moments.

Milan started with the same 4-2-3-1 that we saw against Parma but with Emanuelson and Montolivo instead of Nocerino and Ambrosini. After kick-off Bojan turned well and Malafeev was called into action for the first time. Bystrov from distance failed to really test Abbiati and it was all Milan for the first 20 minutes. Emanuelson broke the deadlock on 13 minutes earning a free kick and taking it only for the ball to deflect off Shirnov giving Malafeev no chance. Allegri’s team kept pushing forward. Two minutes later a cross from Antonini and Emanuelson hit the side netting on the far post. On 16, El Shaarawy got the ball on the left side and left two defenders in his wake as before placing the ball past the keeper. 2-0 and it could even have been 3 on 19 minutes when Bojan was brought down in the area but no penalty was given. Abbitati was then called into action a few times. Then on 33 minutes he did well to push out a shot from Hulk for a corner. A superlative save came five minutes from the end of the first half from a frightening strike from the same player on the edge of the area. Abbitati pulled off a miracle to stop him celebrating the goal. Then, in the second minute of injury time, Hulk finally got his goal with a violent left footed shot. At half time Milan were up 2-1.

The home side pushed hard early in the second half and on 4 minutes Hulk won another corner and the Rossoneri defense found itrself unprepared. Shirokov brought his side back onto level terms. Pazzini then came on for Bojan and Milan gained more presence in the final third. On 9 minutes, Abate crossed from the right for Boateng but the header was off target. Allegri then brought on Nocerino for Emanuelson beefing up the middle of the field. Zenit dropped and Milan pushed on. With 15 left, Milan went back into the lead. Montolivo crossed from the right and Hubocan deflected the ball past his keeper when trying to get there ahead of Pazzini. Then Abbiati did his job well to ensure that Milan saw out the rest of the game without conceding any further goals. It was big win for the team and it has come right in the nick of time. Now for the derby.

THE NUMBERS

ZENIT-MILAN 2-3

GOALS: Emanuelson (M) on 13', El Shaarawy (M) on 16', Hulk (Z) on 46'fh; Shirokov (Z) al 4', O.G. Hubocan (Z) al 30'sh

ZENIT (4-3-3): Malafeev; Anyukov, Hubocan, Lombaerts (44'st Bukharov), Criscito; Shirokov, Fayzulin (34'st Kanunnikov), Witsel; Bystrov (27'st Zyryanov), Kerzhakov, Hulk. Subs: Baburin, Bruno Alves, Lukovic, Lumb. All. Spalletti

MILAN (4-2-3-1): Abbiati; Abate, Bonera, Zapata, Antonini; De Jong, Montolivo; Emanuelson (19'st Nocerino), Boateng (35'st Yepes), El Shaarawy; Bojan (7'st Pazzini). Subs: Amelia, Mexes, Flamini, Robinho. All. Allegri

REFEREE: Brych (German)

NOTES: Booked: Fayzulin, Anyukov, Hubocan, Shirokov, Bonera, El Shaarawy,