Ali Moustafa Mosharafa

Dr. Ali Moustafa Mosharrafa Pasha
Born 11 July 1898
Damietta, Khedivate of Egypt
Died January 16, 1950(1950-01-16) (aged 51)
Residence Cairo, Egypt, London, United Kingdom
Nationality Egyptian
Fields Physics
Institutions Cairo University

Dr. Ali Moustafa Mosharafa Pasha (Arabic: على مصطفى مشرفة) (11 July 1898 16 January 1950) was an Egyptian theoretical physicist. He was professor of applied mathematics in the Faculty of Science at Cairo University, and also served as its first dean.[1] He contributed to the development of the quantum theory as well as the theory of relativity and corresponded with Albert Einstein.[2]

Biography

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 Mosharafa was awarded the degree of Doctor of Science, the first Egyptian and 11th scientist in the entire world to obtain such a degree.

Academic career

He became a teacher in the Higher Teachers' college in Cairo University, 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.

Scientific achievements

Over the 1920s-1930s, he studied Maxwell's equations and the special relativity and he had correspondence with Albert Einstein.

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.

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).

He also was interested in the relation between music and mathematics and helped to establish the Egyptian society of music fans in 1945.[3][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

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:

Papers

Some of His papers

1- On the Appearance of Unsymmetrical Components in the Stark Effect (Phil. Mag. Vol. 43, p. 943) - (1922)

2- On the Stark Effect for Strong Electric Fields (Phil. Mag. Vol. 44, p. 371) - (1922)

3- On the Quantum Theory of Complex Zeeman Effect (Phil. Mag. Vol. 46, p. 177) - (1923)

4- On a Second Approximation to the Quantum Theory of the Simple Zeeman Effect (Phil. Mag. Vol. 46, p. 514) - (1923)

5- The Stark Effect for Strong Fields (Phil. Mag. Vol. 46, p. 751) - (1923)

6- On the Quantum Theory of the Simple Zeeman Effect (Roy. Soc. Proc. A. Vol. 102, p. 529) - (1923)

7- Half Integral Quantum numbers in the Theory of Stark Effect and a general Hypothesis of Fractional Quantum numbers (Roy. Soc. Proc. Vol. 126, p. 641) - (1930)

8- On The Quantum Dynamics of Degenerate Systems (Roy. Soc. Proc. A. Vol. 107, p. 237) - (1925)

9- The Quantum Explanation of the Zeeman Triplet (Nature Vol. 119, p. 96, No. 2907, July 18) - (1925)

10- The Motion of a Lorentz Electron as a wave Phenomenon (Nature Vol. 124, p. 726, No. 3132, Nov. 9) - (1929)

11- Wave Mechanics and the Dual Aspect of Matter and Radiation (Roy. Soc. Proc. A. Vol. 126, p. 35) - (1930)

12- Material and Radiational Waves (Roy. Soc. Proc. A. Vol. 131, p. 335) - (1931)

13- Can Matter and Radiation be regarded as two aspects of the same world-Condition (Verhandlungen der Internationalen Kongress, Zurich, Switzerland) - (1932)

14- Some Views on the Relation between Matter and Radiation (Bulletin de l'institute d'Egypte, T. XVI, p. 161) - (1939)

15- Modes in Modern Egyptian Music (Nature, No. 135, p. 548-549) - (1937)

16- The Maxwellian Equations and a variable Speed of Light (Proceedings of the Mathematical and Physical Society of Egypt, No. 1, Vol. 1) - (1937)

17- The Principle of Indeterminacy and the Structure of the World Lines (Proceedings of the Mathematical and Physical Society of Egypt, Vol. 2, No. 1) - (1944)

18- Wave Surfaces associated with World Lines (Proceedings of the Mathematical and Physical Society of Egypt, Vol. 2, No. 2) - (1943)

19- Conical Transformations (Proceedings of the Mathematical and Physical Society of Egypt, No. 2, Vol. 3) - (1944)

20- On a Positive Definite Metric in the Special Theory of Relativity (Proceedings of the Mathematical and Physical Society of Egypt, Vol. 2, No. 4) - (1944)

21- On the Metric of Space and the Equations of Motion of a Charged Particle (Proceedings of the Mathematical and Physical Society of Egypt, Vol. 3, No. 1) - (1945)

22- The Egyptian Academy of Sciences (Nature, Vol. 157, p. 573, No. 3992, May) - (1946)

23- The Metric of Space and Mass Deficiency (Philosophical Magazine) - (1948)

24- The Mass-Defect Curves on Nuclear Forces (Nature, Vol. 164, October 15) - (1949)

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 prominent Arab 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 cannot 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."[5]

References

References of his Papers

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