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Ralph Asher Alpher was born on 3 February, 1921 in Washington, D.C., U.S., is an American cosmologist (1921–2007). Discover Ralph Asher Alpher's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is he in this year and how he spends money? Also learn how he earned most of networth at the age of 86 years old?

Popular As N/A
Occupation N/A
Age 86 years old
Zodiac Sign Aquarius
Born 3 February, 1921
Birthday 3 February
Birthplace Washington, D.C., U.S.
Date of death 12 August, 2007
Died Place Austin, Texas, U.S.
Nationality United States

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Ralph Asher Alpher Height, Weight & Measurements

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Ralph Asher Alpher Net Worth

His net worth has been growing significantly in 2023-2024. So, how much is Ralph Asher Alpher worth at the age of 86 years old? Ralph Asher Alpher’s income source is mostly from being a successful . He is from United States. We have estimated Ralph Asher Alpher's net worth, money, salary, income, and assets.

Net Worth in 2024 $1 Million - $5 Million
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1921

Ralph Asher Alpher (February 3, 1921 – August 12, 2007) was an American cosmologist, who carried out pioneering work in the early 1950s on the Big Bang model, including Big Bang nucleosynthesis and predictions of the cosmic microwave background radiation.

Alpher was the son of a Jewish immigrant, Samuel Alpher (born Alfirevich), from Vitebsk, Russian Empire.

1937

He also learned Gregg shorthand, and in 1937 began working for the director of the American Geophysical Union as a stenographer.

1938

His mother, Rose Maleson, died of stomach cancer in 1938, and his father later remarried.

Alpher graduated at age 15 from Theodore Roosevelt High School in Washington, D.C., and held the ranks of Major and Commander of his school's Cadet program.

He worked in the high school theater as stage manager for two years, supplementing his family's Depression-era income.

1940

In 1940 he was hired by the Department of Terrestrial Magnetism of the Carnegie Foundation, where he worked with Dr. Scott Forbush under contract for the U.S. Navy to develop ship degaussing techniques during World War II.

1943

This was badly needed since the Mark 14 torpedo, which had a poorly tested exploder that had its magnetic component turned off by order of the Chief of Naval Operations in late 1943, was badly in need of replacement (V.S. Alpher, The Submarine Review, October, 2009).

1944

From 1944 through 1955, he was employed at the Applied Physics Laboratory (APL).

During the daytime he was involved in the development of ballistic missiles, guidance systems, supersonics, and related subjects.

During a hiatus in his scientific work in early 1944, he did apply to the Navy for a commission, for which he was eligible.

By this time he had done so much classified and secret work that he was no longer subject to the draft (along with about 7,000 others), and was prohibited from enlistment.

That summer, he signed on to APL at Johns Hopkins University to work on another classified project—a new magnetic-influence torpedo exploder.

1945

He contributed to the development of the Mark 32 and Mark 45 detonators, torpedoes, Naval gun control, Magnetic Airborne Detection (of submarines), and other top-secret ordnance work (including the Manhattan Project), and he was recognized at the end of the War with the Naval Ordnance Development Award (December 10, 1945—with Symbol), and another Naval Ordnance Development award in 1946.

Alpher's war time work been somewhat obscured by security classification.

1948

In 1948 he earned his Ph.D. in physics with a theory of nucleosynthesis called neutron capture, and from 1948 onward collaborated with Dr. Robert C. Herman, also at APL, on predictions of the cosmic microwave background radiation.

At age 16, he was offered a full scholarship to the Massachusetts Institute of Technology (MIT), but did not take it up.

Instead, he earned his bachelor's degree and advanced graduate degrees in physics from George Washington University, all the while working as a physicist on contract to the Navy, and eventually for the Johns Hopkins University APL.

He met Russian-Ukrainian physicist George Gamow at the University, who subsequently took him on as his doctoral student.

Gamow was a prominent Soviet defector and one of the luminaries on the GWU faculty.

Alpher provided much needed mathematical ability to support Gamow's theorizing.

Alpher wrote his doctoral thesis on "The Origin of the Elements", and soon after obtaining his doctorate, made the first prediction of the existence of "fossil" radiation from a hypothetical singularity—the Cosmic Microwave Background Radiation.

This was observationally confirmed by Arno Allan Penzias and Robert Wilson at Bell Labs using a horn radio telescope.

While attending GWU, Alpher met Louise Ellen Simons, who was majoring in psychology at night school and working as a day secretary with the State Department.

Nearly two months after the attack on Pearl Harbor, Alpher and Louise were married.

At this time he had already done classified work for the U.S. Navy through the Carnegie Institution for nearly one and a half years.

Alpher's dissertation in 1948 dealt with a subject that came to be known as Big Bang nucleosynthesis.

Nucleosynthesis is the explanation of how more complex elements are created out of simple elements in the moments following the Big Bang.

Right after the Big Bang, when the temperature was extremely high, if any nuclear particles, such as neutrons and protons, became bound together (being held together by the attractive nuclear force) they would be immediately broken apart by the high energy photons (quanta of light) present in high density.

In other words, at this extremely high temperature, the photons' kinetic energy would overwhelm the binding energy of the strong nuclear force.

For example, if a proton and a neutron became bound together (forming deuterium), it would be immediately broken apart by a high energy photon.

However, as time progressed, the universe expanded and cooled and the average energy of the photons decreased.

At some point, roughly one second after the Big Bang, the attractive force of nuclear attraction would begin to win out over the lower energy photons and neutrons and protons would begin to form stable deuterium nuclei.

As the universe continued to expand and cool, additional nuclear particles would bind with these light nuclei, building up heavier elements such as helium, etc.

Alpher argued that the Big Bang would create hydrogen, helium and heavier elements in the correct proportions to explain their abundance in the early universe.

Alpher and Gamow's theory originally proposed that all atomic nuclei are produced by the successive capture of neutrons, one mass unit at a time.

However, later studies challenged the universality of the successive capture theory, since no element was found to have a stable isotope with an atomic mass of five or eight, hindering the production of elements beyond helium.

It was eventually recognized that most of the heavy elements observed in the present universe are the result of stellar nucleosynthesis in stars, a theory largely developed by Hans Bethe, William Fowler and Subrahmanyan Chandrasekhar.

Bethe had been a last minute addition to Alpher's dissertation examining committee.

Since Alpher's dissertation was perceived to be ground-breaking, over 300 people attended the dissertation defense, including the press, and articles about his predictions and a Herblock cartoon appeared in major newspapers.