April Fools Day

April Fools' Day: Origin and History

April Fools' Day, sometimes called All Fools' Day, is one of the most light-hearted days of the year. Its origins are uncertain. Some see it as a celebration related to the turn of the seasons, while others believe it stems from the adoption of a new calendar.

New Year's Day Moves

Ancient cultures, including those of the Romans and Hindus, celebrated New Year's Day on or around April 1. It closely follows the vernal equinox (March 20th or March 21st.) In medieval times, much of Europe celebrated March 25, the Feast of Annunciation, as the beginning of the new year.

In 1582, Pope Gregory XIII ordered a new calendar (the Gregorian Calendar) to replace the old Julian Calendar. The new calendar called for New Year's Day to be celebrated Jan. 1. That year, France adopted the reformed calendar and shifted New Year's day to Jan. 1. According to a popular explanation, many people either refused to accept the new date, or did not learn about it, and continued to celebrate New Year's Day on April 1. Other people began to make fun of these traditionalists, sending them on "fool's errands" or trying to trick them into believing something false. Eventually, the practice spread throughout Europe.

Problems With This Explanation

There are at least two difficulties with this explanation. The first is that it doesn't fully account for the spread of April Fools' Day to other European countries. The Gregorian calendar was not adopted by England until 1752, for example, but April Fools' Day was already well established there by that point. The second is that we have no direct historical evidence for this explanation, only conjecture, and that conjecture appears to have been made more recently.

Constantine and Kugel

Another explanation of the origins of April Fools' Day was provided by Joseph Boskin, a professor of history at Boston University. He explained that the practice began during the reign of Constantine, when a group of court jesters and fools told the Roman emperor that they could do a better job of running the empire. Constantine, amused, allowed a jester named Kugel to be king for one day. Kugel passed an edict calling for absurdity on that day, and the custom became an annual event.

"In a way," explained Prof. Boskin, "it was a very serious day. In those times fools were really wise men. It was the role of jesters to put things in perspective with humor."

This explanation was brought to the public's attention in an Associated Press article printed by many newspapers in 1983. There was only one catch: Boskin made the whole thing up. It took a couple of weeks for the AP to realize that they'd been victims of an April Fools' joke themselves.

Spring Fever

It is worth noting that many different cultures have had days of foolishness around the start of April, give or take a couple of weeks. The Romans had a festival named Hilaria on March 25, rejoicing in the resurrection of Attis. The Hindu calendar has Holi, and the Jewish calendar has Purim. Perhaps there's something about the time of year, with its turn from winter to spring, that lends itself to lighthearted celebrations.

Observances Around the World

April Fools' Day is observed throughout the Western world. Practices include sending someone on a "fool's errand," looking for things that don't exist; playing pranks; and trying to get people to believe ridiculous things.

Scientist of the day - Sir William Lawrence Bragg

Sir William Lawrence Bragg

William Lawrence Bragg was an Australian-British physicist, who won the Nobel Prize for Physics at the age of 25 and is the youngest ever Nobel Laureate in Physics so far. He and his father, William Henry Bragg, shared the ‘Nobel Prize for Physics’ awarded in 1915 for their work involving x-ray crystallography. Although he was a talented and able individual from an early age, it was assumed that his father had produced the bulk of the work and then generously shared the prize with his son for assisting him. But it was he who had the key idea and the skill to interpret the diffraction patterns to prove it and his father had contributed primarily developing instruments for the experiment. The effect of this slighting on him would shadow him for the rest of his life. He served for British army in both the World Wars and later became a popular lecturer known for his skill in making science exciting for the students. He enjoyed his job as a professor and most reports indicate he found happiness at the Royal Institute for perhaps the first time in his life. The foundation laid by his work and that of others in x-ray crystallography helped scientists to discover the structures of DNA and RNA, thereby creating the field of molecular biology. 

Childhood & Early Life

• He was born on March 31, 1890 in Adelaide, South Australia to Sir William Henry Bragg, a physicist, and his wife Lady Gwendoline Bragg. His father was a Professor of Mathematics and Physics at the University of Adelaide.
• He was the eldest of the three children. He had a younger brother, Robert Charles Bragg, who was killed in 1915 at Gallipoli, and a younger sister, Gwendoline Bragg Caroe.
• He had a keen interest in science and received his early education from the Queens Preparatory School, North Adelaide and St. Peter's College, Adelaide. He was a bright student and graduated from high school in 1904, at the age of 14.
• Later he enrolled at the Adelaide University to study d mathematics, chemistry and physics. He graduated in 1908, at an age when most boys were still in secondary school.
• In 1909, he attended the Trinity College, Cambridge, England and received a major scholarship in mathematics but after one year, he transferred to physics course, at the suggestion of his father. He continued his academic success by taking first class honors in Natural Science in 1912.

   

  Major Works

  • His most significant accomplishment is the Bragg’s Law, which he discovered along with his father. Bragg's Law makes it possible to calculate the positions of the atoms within a crystal from the way an X-ray beam is diffracted by the crystal lattice.
  • In 1948, while in Cambridge, he became interested in the structure of proteins. Although he played no direct part in the 1953 discovery of DNA's structure, his X-ray method developed forty years ago was at the heart of this profound insight into the nature of life itself.

     

    Awards & Achievements

    • In 1915, he was awarded the ‘Nobel Prize for Physics’ jointly with his father for their work in the analysis of crystal structure by means of X-rays, an important step in the development of X-ray crystallography. Until now, he is the youngest person ever to receive the Nobel Prize, at an age of 25.
    • He was honored as the ‘Knight of the British Empire’ by King George VI in the 1941 New Year Honours.
    • He received the ‘Royal Medal’ in 1946 and the ‘Copley Medal’ in 1966, both from the Royal Society.
    • Since 1992, the Australian Institute of Physics has awarded the Bragg Gold Medal for Excellence in Physics to commemorate him and his father, for the best doctorate thesis by a student at an Australian university.

       

      Personal Life & Legacy

      • On 10 December 1921, he married Alice Grace Jenny Hopkinson who pursued a successful career in municipal affairs in Cambridge. They were blessed with four children; Stephen Lawrence, David William, Margaret Alice and Patience Mary.
      • He loved spending time reading literature and painting alongwith a lifelong interest in gardening. His other interest was shell collecting; his personal collection amounted to specimens from some 500 species; all personally collected from South Australia.
      • He died on July 1, 1971 at a hospital near his home at Waldringfield, Ipswich, Suffolk. He was buried in Trinity College Chapel, Cambridge University, England.

      
      

      Trivia

      When he was five, he fell from his tricycle and broke his arm. His father used the newly discovered X-rays to examine his arm. It was the first recorded surgical use of X-rays in Australia.