Mosharafa was an Egyptian physicist and mathematician who made many significant contributions to science. He obtained his PhD at a very young age and was the first Egyptian professor of applied mathematics. He published over 25 papers on topics like quantum theory and relativity and authored over 12 books. When Einstein visited Egypt, he specifically asked to meet Mosharafa to discuss his work. Mosharafa died under mysterious circumstances in 1950 at the age of 53.
Meghnad Saha in context : Work, life, and timesRajesh Kochhar
This year is the 100th anniversary of Saha’s equation. It is also the 100th anniversary of the end of World War 1. Is this a mere coincidence? Or, are the two events physically connected in some indirect way? I would argue that there indeed was a connection.
Meghnad Saha in context : Work, life, and timesRajesh Kochhar
This year is the 100th anniversary of Saha’s equation. It is also the 100th anniversary of the end of World War 1. Is this a mere coincidence? Or, are the two events physically connected in some indirect way? I would argue that there indeed was a connection.
In this lesson, we shall learn about Albert Einstein's terrible five years which he considered wasted at school in Munich. Here we shall learn how did he manage to leave the school due to which he achieved his goals and we know him as genius today.
In this lesson, we shall learn about Albert Einstein's terrible five years which he considered wasted at school in Munich. Here we shall learn how did he manage to leave the school due to which he achieved his goals and we know him as genius today.
Nobel Prize winner Albert Einstein is one of the most influential and well-known physicist in history. Learn more about his life and work in this mini biography.
Meghnad Saha in international and national contextsRajesh Kochhar
Meghnad Saha (6 October 1893 – 16 February 1956), whose 125th birthday is being celebrated today, is universally recognized as one of the founders of quantitative astrophysics. His theoretical papers published in British journals during 1920-1921 showed that astronomical spectra of all kinds, notwithstanding their seeming complexity and diversity, can be rigorously explained in terms of known laws and chemical elements, by simply invoking different physical conditions. Saha’s work thus transformed the cosmos from an exotic out-field into a science lab.
He was nominated for the physics Nobel prize. Evaluation of theoretical work is far more difficult than that of experiments and observations. He may not have won the prize, but his work certainly belongs to Nobel-class. (This is true of SN Bose, of Bose-Einstein statistics 1924, also)
Meghnad Saha in context :Work, life, and timesRajesh Kochhar
2019 is the 100th anniversary of Saha’s equation. It is also the 100th anniversary of the end of World War 1. Is this a mere coincidence? Or, are the two events physically connected in some indirect way? I would argue that there indeed was a connection.
Meghnad Saha (1893-1955) set out his theory in a number of papers published in British journals during 1920-1921. The work was immediately recognized as laying the foundation of quantitative astrophysics.History chooses the hour; and the hour produces the hero. The only surprise was that the hour was seized not by any established research centre in the West but by a far-off Calcutta which was nowhere on the world research map.
2. Birth and early life
He was the youngest student in his class,
but the most knowledgeable. He obtained
his primary certificate in 1910 ranking first
nationwide. At the age of 16 he obtained his
Baccalaureate in 1914 to become the
youngest student at that time to be awarded
such a certificate. He preferred to enroll in
the Teachers' College rather than the
faculties of Medicine or Engineering due to
his deep interest in mathematics.
He graduated in 1917. Due to his excellence
in mathematics, the
Egyptian Ministry of Education sent him to
England where he obtained BSc ( Honors)
from the University of Nottingham, 1920. The
Egyptian University consented to grant
Mosharafa another scholarship to complete
his doctoral thesis. During his stay in
London many of his scientific researches
were published in prominent science
magazines. He obtained a PhD in 1923 from
[king's College London]] in the shortest
possible time permissible according to the
regulations there. In 1924 Musharafa was
awarded the degree of Doctor of Science, the
first Egyptian and 11th scientist in the entire
world to obtain such a degree
3. Academic career
When he returned home he became a teacher in the Higher Teachers' college. When the
University of Cairo was opened in 1925, he became an associate professor of mathematics
in the Faculty of Science because he was under the age of 30, the minimum age required
for fulfilling the post of a professor. In 1926 his promotion to professor was raised in the
Parliament, then chaired by Saad Zaghloul. The Parliament lauded his qualifications and
merits which surpassed those of the English dean of the faculty and he was promoted to
professor.
He was the first Egyptian professor of applied mathematics in the Faculty of Science. He
became dean of the faculty in 1936, at the age of 38. He remained in office as a dean of the
Faculty of Science until he died in 1950.
Among his students was Sameera Moussa.
Scientific achievements
Mosharafa published 25 original papers in distinguished scientific journals about quantum
theory, the theory of relativity, and the relation between radiation and matter. He published
around 12 scientific books about relativity and mathematics. His books, on the theory of
relativity, were translated into English, French, German and Polish. he also translated 10
books of astronomy and mathematics into Arabic.
When Einstein visited Egypt, he specifically asked to meet Mousharafa, and it is said[
citation needed] that this meeting developed onto Einstein's E=MC2 because of
Mousharafa's extraordinary knowledge of quantum atoms, radiation, mechanics, and
dynamics.
Musharafa was interested in the history of science, especially in studying the contributions of
Arab scientists in the Middle Ages. With his student M. Morsi Ahmad, he published
al-Khwārizmī's book The Compendious Book on Calculation by Completion and Balancing
(Kitab al-Jabr wa-l-Muqabala).
4. Social and political views
He was the first to call for social reform and development based on scientific
research. He was keen on disseminating public scientific awareness, and wrote
several articles and books for the public about science in simple forms. He,
further, encouraged translations into Arabic. He contributed in writing the Arab
scientific encyclopedia and books on the scientific heritage of the Arabs as well.
He was against the use of atomic energy in war and warned against the
exploitation of science as a means of destruction.
Honors
•He was given the title "Pasha" by King Farouq, but he declined the title claiming
that no title is worthier than a sciences PhD.
•A laboratory and an auditorium are named after him in the Faculty of Science,
Cairo University, Egypt.
•An annual reward carrying his name has been initiated by his family to be given
to the cleverest student in mathematics.
•Egypt & Europe Magazine published a cartoon of him standing between Russia
and the USA holding in his hands rolled paper, and both superpowers awaiting
him to unfold the secrets of science.
•When the Advanced Sciences Institute in the USA in 1947, Mosharafa was
invited as a visiting professor at Princeton University, but the king disapproved.
Books and papers
He wrote 26 significant papers including theoretical explanations of natural
phenomena. He wrote 15 books in relativity and mathematics. Among which is a
book on the theory of relativity translated into English, French, German and
Polish. It was reprinted in the USA. He produced around 15 scientific books
about relativity, mathematics, atom and space invasion. His most important
books are:
•We and Science
•Science and Life
•Atom and Atomic Bomb
•Scientific Claims
5. Death
He died under mysterious circumstances on Monday,
January 15, 1950. Press reports at the time suggested
that he was assassinated by one of the Israeli Mossad's
operations against Arabic prominent scientists.
International Scientific circles have never been so
deeply moved at the death of an Egyptian scientist as
they were at the death of the Egyptian genius, Dr. A.M.
Mosharafa. It was not surprising for Einstein, the
greatest scientist of his time who was personally well
acquainted with Dr. Mosharafa's genius and ambitions
to mourn him to the world as a great loss to science
asserting that his name and achievements will never be
forgotten. Albert Einstein in a confident tone said, "I can
not believe that Mosharafa is dead, he is alive through
his researches. We are in need of his talents, it is a great
loss, he was a genius. I used to follow up his researches
in atomic energy, definitely he is one of the best
scientists in physics."[4]