Vannevar
Bush (March 11, 1890 – June 28, 1974) was an American
engineer, inventor and science administrator known for his
work on analog computers, for his role as an initiator and
administrator of the Manhattan Project, for founding Raytheon,
and for the memex, an adjustable microfilm viewer with a
structure analogous to that of the World Wide Web. In 1945,
Bush published As We May Think in which he predicted that
"wholly new forms of encyclopedias will appear, ready
made with a mesh of associative trails running through them,
ready to be dropped into the memex and there amplified".
The memex influenced generations of computer scientists,
who drew inspiration from its vision of the future.
For
his master's thesis, Bush invented and patented a "profile
tracer", a mapping device for assisting surveyors.
It was the first of a string of inventions. He joined
the Department of Electrical Engineering at MIT in 1919,
and founded the company now known as Raytheon in 1922.
Starting in 1927, Bush constructed a differential analyzer,
an analog computer with some digital components that could
solve differential equations with as many as 18 independent
variables. An offshoot of the work at MIT by Bush and
others was the beginning of digital circuit design theory.
Bush became Vice President of MIT and Dean of the MIT
School of Engineering in 1932, and president of the Carnegie
Institution of Washington in 1938.
Bush
was appointed to the National Advisory Committee for Aeronautics
(NACA) in 1938, and soon became its chairman. As Chairman
of the National Defense Research Committee (NDRC), and
later Director of the Office of Scientific Research and
Development (OSRD), Bush coordinated the activities of
some six thousand leading American scientists in the application
of science to warfare. Bush was a well-known policymaker
and public intellectual during World War II, when he was
in effect the first presidential science advisor. As head
of NDRC and OSRD, he initiated the Manhattan Project,
and ensured that it received top priority from the highest
levels of government. In Science, The Endless Frontier,
his 1945 report to the President of the United States,
Bush called for an expansion of government support for
science, and he pressed for the creation of the National
Science Foundation.
Early
life and work
Vannevar
Bush was born in Everett, Massachusetts, on March 11,
1890, the third child and only son of Perry Bush, the
local Universalist pastor, and his wife Emma Linwood née
Paine. He was named after John Vannevar, an old friend
of the family who had attended Tufts College with Perry.
The family moved to Chelsea, Massachusetts, in 1892, and
Bush graduated from Chelsea High School in 1909. Bush
attended Tufts College, like his father before him. A
popular student, he was vice president of his sophomore
class, and president of his junior class. During his senior
year, he managed the football team. He became a member
of the Alpha Tau Omega fraternity and dated Phoebe Clara
Davis, who also came from Chelsea. Tufts allowed students
to gain a master's degree in four years simultaneously
with a bachelor's degree, so for his master's thesis,
Bush invented and patented a "profile tracer".
This was a device for assisting surveyors that looked
like a lawn mower. It had two bicycle wheels, and a pen
that plotted the terrain over which it traveled. It was
the first of a string of inventions. On graduation in
1913 he received both bachelor of science and master of
science degrees.
After
graduation, Bush worked at General Electric (GE) in Schenectady,
New York, for $14 a week. As a "test man", his
job was to test the equipment to ensure that it was safe.
He transferred to GE's plant in Pittsfield, Massachusetts,
to work on high voltage transformers, but after a fire
broke out at the plant, Bush and the other test men were
suspended. Bush returned to Tufts in October 1914 to teach
mathematics for $300 a term. This was increased to $400
per term in February 1915. He spent the summer break in
1915 working at the Brooklyn Navy Yard as an electrical
inspector. Bush was awarded a $1,500 scholarship to study
at Clark University as a doctoral student of Arthur Gordon
Webster, but Webster wanted Bush to study acoustics. Bush
preferred to quit rather than study a subject he was not
interested in. He then enrolled in the Massachusetts Institute
of Technology (MIT) electrical engineering program. Spurred
by the need for enough financial security to marry, Bush
finished his thesis, entitled Oscillating-Current Circuits:
An Extension of the Theory of Generalized Angular Velocities,
with Applications to the Coupled Circuit and the Artificial
Transmission Line, in April 1916. He married Phoebe in
August. Their marriage produced two sons: Richard Davis
Bush and John Hathaway Bush. He received his doctorate
in engineering from MIT and Harvard University jointly
in 1917, after a dispute with his adviser Arthur Edwin
Kennelly, who tried to demand more work from him.
Bush
accepted a job with Tufts, where he became involved with
the American Radio and Research Corporation (AMRAD), which
began broadcasting music from the campus on March 8, 1916.
The station owner, Harold Power, hired Bush to run the
company's laboratory, at a salary greater than that which
Bush drew from Tufts. In 1917, following the United States'
entry into World War I, Bush went to work with the National
Research Council. He attempted to develop a means of detecting
submarines by measuring the disturbance in the Earth's
magnetic field. His device worked as designed, but only
from a wooden ship, not a metal one like a destroyer,
and attempts, at the U.S. Navy's insistence, to get it
to work on a metal ship failed.
Bush
left Tufts in 1919, although he remained employed by AMRAD,
and joined the Department of Electrical Engineering at
MIT, where he worked under Dugald C. Jackson. In 1922,
Bush collaborated with fellow MIT professor William H.
Timbie on Principles of Electrical Engineering, an introductory
textbook for students. AMRAD's lucrative contracts from
World War I had been cancelled, and Bush attempted to
reverse the company's fortunes by developing a thermostatic
switch invented by Al Spencer, an AMRAD technician, on
his own time. AMRAD's management was not interested in
the device, but they had no objection to its sale. He
found backing from Laurence K. Marshall and Richard S.
Aldrich to create the Spencer Thermostat Company, which
hired Bush as a consultant. The new company soon had revenues
in excess of a million dollars.
In
1924, Bush and Marshall teamed up with physicist Charles
G. Smith, who had invented a device called the S-tube.
This enabled radios, which had previously required two
different types of batteries, to operate from mains power.
Marshall raised $25,000 to set up the American Appliance
Company on July 7, 1922, to market the invention, with
Bush and Smith among its five directors. Bush made a lot
of money from the venture. The company, now known as Raytheon,
ultimately became a large electronics company and defense
contractor.
Starting
in 1927, Bush constructed a differential analyzer, an
analog computer that could solve differential equations
with as many as 18 independent variables. This invention
arose from previous work performed by Herbert R. Stewart,
one of Bush's masters students, who at Bush's suggestion
created the product integraph in 1925, a device for solving
first-order differential equations. Another student, Harold
Hazen, proposed extending the device to handle second-order
differential equations. Bush immediately realized the
potential of such an invention, for these are much more
difficult to solve, but also quite common in physics.
Under Bush's supervision, Hazen was able to construct
the differential analyzer, a table-like array of shafts
and pens that mechanically simulated and plotted the desired
equation. Unlike earlier designs that were purely mechanical,
the differential analyzer had both electrical and mechanical
components. Among the engineers who made use of the differential
analyzer was Edith Clarke from General Electric, who used
it to solve problems relating to electric power transmission.
For developing the differential analyzer, Bush was awarded
the Franklin Institute's Louis E. Levy Medal in 1928.
An
offshoot of the work at MIT was the beginning of digital
circuit design theory by one of Bush's graduate students,
Claude Shannon. Working on the analytical engine, Shannon
described the application of Boolean algebra to electronic
circuits in his landmark master's thesis, A Symbolic Analysis
of Relay and Switching Circuits.
In
1935, Bush was approached by OP-20-G, which was searching
for an electronic device to aid in codebreaking. Bush
was paid a $10,000 fee to design the Rapid Analytical
Machine (RAM). The project went over budget and was not
delivered until 1938, when it was found to be unreliable
in service. Nonetheless, it was an important step toward
creating such a device.
The
reform of the administration of MIT began in 1930 with
the appointment of Karl T. Compton as president. Bush
and Compton soon clashed over the issue of limiting the
amount of outside consultancy by professors, a battle
Bush quickly lost, but the two men soon built a solid
professional relationship. Compton appointed Bush to the
newly created post of vice president in 1932. That year
Bush also became the dean of the MIT School of Engineering.
The two positions came with a salary of $12,000 plus $6,000
for expenses per annum.
World
War II period
Carnegie
Institution for Science
In
May 1938, Bush accepted a prestigious appointment as president
of the Carnegie Institution of Washington (CIW), which
had been founded in Washington, District of Columbia.
Also known as the Carnegie Institution for Science, with
an endowment of $33 million, it annually spent $1.5 million
in research, most of which was carried out at its eight
major laboratories. Bush became its president on January
1, 1939, with an annual salary of $25,000. He was now
able to influence research policy in the United States
at the highest level, and could informally advise the
government on scientific matters. Bush soon discovered
that the CIW had serious financial problems, and he had
to ask the Carnegie Corporation for additional funding.
Bush
clashed over who was in charge of the institute with Cameron
Forbes, CIW's chairman of the board, and with his predecessor,
John Merriam, who continued to offer unwanted advice.
A major embarrassment to them all was Harry H. Laughlin,
the head of the Eugenics Record Office, whose activities
Merriam had attempted to curtail without success. Bush
made it a priority to remove him, regarding him as a scientific
fraud, and one of his first acts was to ask for a review
of Laughlin's work. In June 1938, Bush asked Laughlin
to retire, offering him an annuity, which Laughlin reluctantly
accepted. The Eugenics Record Office was renamed the Genetics
Record Office, its funding was drastically cut, and it
was closed completely in 1944. Senator Robert Reynolds
attempted to get Laughlin reinstated, but Bush informed
the trustees that an inquiry into Laughlin would "show
him to be physically incapable of directing an office,
and an investigation of his scientific standing would
be equally conclusive."
Bush
wanted the institute to concentrate on hard science. He
gutted Carnegie's archeology program, setting the field
back many years in the United States. He saw little value
in the humanities and social sciences, and slashed funding
for Isis, a journal dedicated to the history of science
and technology and its cultural influence. Bush later
explained that "I have a great reservation about
these studies where somebody goes out and interviews a
bunch of people and reads a lot of stuff and writes a
book and puts it on a shelf and nobody ever reads it."
National
Advisory Committee for Aeronautics
On
August 23, 1938, Bush was appointed to the National Advisory
Committee for Aeronautics (NACA), the predecessor of NASA.
Its chairman Joseph Sweetman Ames became ill, and Bush,
as vice chairman, soon had to act in his place. In December
1938, NACA asked for $11 million to establish a new aeronautical
research laboratory in Sunnyvale, California, to supplement
the existing Langley Memorial Aeronautical Laboratory.
The California location was chosen for its proximity to
some of the largest aviation corporations. This decision
was supported by the Chief of the United States Army Air
Corps, Major General Henry H. Arnold, and by the head
of the Navy's Bureau of Aeronautics, Rear Admiral Arthur
B. Cook, who between them were planning to spend $225
million on new aircraft in the year ahead. However, Congress
was not convinced of its value, and Bush had to appear
before the Senate Appropriations Committee on April 5,
1939. It was a frustrating experience for Bush, since
he had never appeared before Congress before, and the
Senators were not swayed by his arguments. Further lobbying
was required before funding for the new center, now known
as the Ames Research Center, was finally approved. By
this time, war had broken out in Europe, and the inferiority
of American aircraft engines was apparent; NACA asked
for funding to build a third center in Ohio, which became
the Glenn Research Center. Following Ames's retirement
in October 1939, Bush became Chairman of NACA, with George
J. Mead as his deputy. Bush remained a member of NACA
until November 1948.
National
Defense Research Committee
During
World War I, Bush had become aware of poor cooperation
between civilian scientists and the military. Concerned
about the lack of coordination in scientific research
and the requirements of defense mobilization, Bush proposed
the creation of a general directive agency in the federal
government, which he discussed with his colleagues. He
had the secretary of NACA prepare a draft of the proposed
National Defense Research Committee (NDRC) to be presented
to Congress, but after the Germans invaded France in May
1940, Bush decided speed was important and approached
President Franklin D. Roosevelt directly. Through the
president's uncle, Frederic Delano, Bush managed to set
up a meeting with Roosevelt on June 12, 1940, to which
he brought a single sheet of paper describing the agency.
Roosevelt approved the proposal in 15 minutes, writing
"OK - FDR" on the sheet.
With
Bush as chairman, NDRC was functioning even before the
agency was officially established by order of the Council
of National Defense on June 27, 1940. The organization
operated financially on a hand-to-mouth basis with monetary
support from the president's emergency fund. Bush appointed
four leading scientists to the NRDC: Karl T. Compton (President
of MIT), James B. Conant (President of Harvard University),
Frank B. Jewett (President of the National Academy of
Sciences and chairman of the Board of Directors of Bell
Laboratories), and Richard C. Tolman (Dean of the graduate
school at Caltech); Rear Admiral Harold G. Bowen, Sr.
and Brigadier General George V. Strong represented the
military. The civilians already knew each other well,
which allowed the organization to begin functioning straight
away. The NRDC established itself in the administration
building at the Carnegie Institution of Washington. Each
member of the committee was assigned an area of responsibility:
Tolman for armor and ordnance, Conant for chemicals and
explosives, Jewitt for communications and transportation,
Compton for controls and instrumentation (including radar),
and Commissioner of Patents and Trademarks Conway Peyton
Coe for patents and inventions. Bush handled coordination,
and a small number of projects which reported to him directly,
such as the S-1 Uranium Committee. Compton's deputy, Alfred
Loomis, said that "Of the men whose death in the
summer of 1940 would have been the greatest calamity for
America, the President is first, and Dr. Bush would be
second or third."
Bush
was fond of saying that "if he made any important
contribution to the war effort at all, it would be to
get the Army and Navy to tell each other what they were
doing." Bush established a cordial relationship with
the Secretary of War, Henry L. Stimson, and his assistant
Harvey H. Bundy, who made it his mission to swiftly resolve
any instances of military intransigence that Bush found
frustrating. Bundy found Bush "impatient" and
"vain", but said he was "one of the most
important, able men I ever knew". Bush's relationship
with the Navy was more turbulent. Bowen, the Director
of the Naval Research Laboratory (NRL), saw the NDRC as
a bureaucratic rival intent on supplanting rather than
supplementing the activities of the NRL, and recommended
abolishing the NDRC. A series of bureaucratic battles
left Bowen as second best, with the NRL placed under the
Bureau of Ships, and Secretary of the Navy Frank Knox
leaving an unsatisfactory fitness report in Bowen's personnel
file. After the war, Bowen would again try to create a
rival to the NDRC inside the Navy.
On
August 31, 1940, Bush met with Henry Tizard, and arranged
a series of meetings between the NDRC and the Tizard Mission,
a British delegation that would draw upon American expertise
in science and technology for the war effort during World
War II. On September 19, 1940, at a meeting hosted by
Loomis at the Wardman Park Hotel in Washington, D.C.,
the Americans described Loomis and Compton's microwave
research from earlier that year. The Americans had an
experimental 10 cm wavelength short wave radar, but admitted
that it did not have enough transmitter power and that
they were at a dead end. Taffy Bowen and John Cockcroft
of the Tizard Mission produced a cavity magnetron, a device
far in advance of anything the Americans had ever seen,
with an amazing power output of around 10 KW at 10 cm,[34]
enough to spot the periscope of a surfaced submarine at
night from an aircraft. To exploit the invention, Bush
decided to create a special laboratory. The NDRC allocated
the new laboratory a budget of $455,000 for its first
year. Loomis suggested that the lab should be run by the
Carnegie Institution, but Bush convinced him that it would
best be run by MIT. The Radiation Laboratory, as it came
to be known, tested its airborne radar from an Army B-18
on March 27, 1940. By mid-1941, it had developed SCR-584
radar, a mobile radar fire control system for antiaircraft
guns.[35]
In
September 1940, Norbert Wiener approached Bush with a
proposal to build a digital computer. Bush declined to
provide NDRC funding for it on the grounds that he did
not believe that it could be completed before the end
of the war. The supporters of digital computers were disappointed
at the decision, which they attributed to a preference
for outmoded analog technology. Eventually, the Army provided
$500,000 to build the computer, which became ENIAC, the
first general-purpose electronic computer. Bush was correct
in that ENIAC was not completed until after the war, but
his critics were also right in seeing Bush's attitude
as a failure of vision.
Office
of Scientific Research and Development
On
June 28, 1941, Roosevelt established the Office of Scientific
Research and Development (OSRD) with the signing of Executive
Order 8807. Bush became director of the OSRD while Conant
succeeded him as Chairman of the NDRC, which was subsumed
into the OSRD. The OSRD was on a firmer financial footing
than the NDRC since it received funding from Congress,
with the resources and the authority to develop and produce
weapons and technologies with or without the military.
Furthermore, the OSRD had a broader mandate than the NDRC,
moving into additional areas such as medical research
and the mass production of penicillin and sulfa drugs.
The organization grew to 850 full-time employees, and
produced between 30,000 and 35,000 reports. The OSRD was
involved in some 2,500 contracts, worth in excess of $536
million.
Bush's
method of management at the OSRD was to direct overall
policy while delegating supervision of divisions to qualified
colleagues and letting them do their jobs without interference.
He attempted to interpret the mandate of the OSRD as narrowly
as possible to avoid overtaxing his office and to prevent
duplicating the efforts of other agencies. Bush would
often ask: "Will it help to win a war; this war?"
Other problems involved obtaining adequate funds from
the president and Congress and determining apportionment
of research among government, academic, and industrial
facilities. However, his most difficult problems, and
also greatest successes, were keeping the confidence of
the military, which distrusted the ability of civilians
to observe security regulations and devise practical solutions,
and opposing conscription of young scientists into the
armed forces. This became especially difficult as the
Army's manpower crisis really began to bite in 1944. In
all, OSRD requested deferments for some 9,725 employees
of OSRD contractors, of which all but 63 were granted.
In his obituary, The New York Times described Bush as
"a master craftsman at steering around obstacles,
whether they were technical or political or bull-headed
generals and admirals."
Proximity
fuze
In
August 1940, the NDRC began work on a proximity fuze,
a fuze inside an artillery shell that would explode when
it came close to its target. A radar set, along with the
batteries to power it, were miniaturized to fit inside
a shell, and its glass vacuum tubes designed to withstand
the 20,000 g force of being fired from a gun and 500 rotations
per second in flight. Unlike normal radar, the proximity
fuze sent out a continuous signal rather than short pulses.
The NDRC created a special Section T chaired by Merle
Tuve of the CIW, with Commander William S. Parsons as
special assistant to Bush and liaison between the NDRC
and the Navy's Bureau of Ordnance (BuOrd). In April 1942,
Bush placed Section T directly under the OSRD, with Parsons
in charge. The research effort remained under Tuve but
moved to the Johns Hopkins University's Applied Physics
Laboratory (APL), where Parsons was BuOrd's representative.
In August 1942, a live firing test was conducted with
the newly commissioned cruiser USS Cleveland; three pilotless
drones were shot down in succession.
To
preserve the secret of the proximity fuse, its use was
initially permitted only over water, where a dud round
could not fall into enemy hands. However in late 1943,
the Army obtained permission to use the weapon over land.
The proximity fuse proved particularly effective against
the V-1 flying bomb over England, and later Antwerp, in
1944. A version was also developed for use with howitzers
against ground targets. Bush met with the Joint Chiefs
of Staff in October 1944 to press for its use, arguing
that the Germans would be unable to copy and produce it
before the war was over. Eventually, they agreed to allow
its use from December 25. In response to the German Ardennes
Offensive on December 16, 1944, the immediate use of the
proximity fuze was authorized, and it went into action
with deadly effect. By the end of 1944, VT fuzes were
coming off the production lines at the rate of 40,000
per day. "If one looks at the proximity fuze program
as a whole," historian James Phinney Baxter III
wrote, "the magnitude and complexity of the effort
rank it among the three or four most extraordinary scientific
achievements of the war."
The
German V-1 flying bomb demonstrated a serious omission
in OSRD's portfolio: guided missiles. While the OSRD had
some success developing unguided rockets, it had nothing
comparable to the V-1, the V-2 or the Henschel Hs 293
air-to-ship gliding guided bomb. Although the United States
trailed the Germans and Japanese in several areas, this
represented an entire field that had been left to the
enemy. Bush did not seek the advice of Dr. Robert H. Goddard.
Goddard would come to be regarded as America's pioneer
of rocketry, but many contemporaries regarded him as a
crank. Before the war, Bush had gone on the record as
saying, "I don't understand how a serious scientist
or engineer can play around with rockets", but
in May 1944, he was forced to travel to London to warn
General Dwight Eisenhower of the danger posed by the V-1
and V-2. Bush could only recommend that the launch sites
be bombed, which was done.
Manhattan
Project
Bush
played a critical role in persuading the United States
government to undertake a crash program to create an atomic
bomb. When the NDRC was formed, the Committee on Uranium
was placed under it, reporting directly to Bush as the
Uranium Committee. Bush reorganized the committee, strengthening
its scientific component by adding Tuve, George B. Pegram,
Jesse W. Beams, Ross Gunn and Harold Urey. When the OSRD
was formed in June 1941, the Uranium Committee was again
placed directly under Bush. For security reasons, its
name was soon changed to the S-1 Section.
Roosevelt,
Bush and Vice President Henry A. Wallace met on October
9, 1941, to discuss the project. Bush briefed Roosevelt
on Tube Alloys, the British atomic bomb project, and its
Maud Committee, which had concluded that an atomic bomb
was feasible, and on the German nuclear energy project,
about which little was known. Roosevelt approved and expedited
the atomic program. To control it, he created a Top Policy
Group consisting of himself—although he never attended
a meeting—Wallace, Bush, Conant, Stimson and the
Chief of Staff of the Army, General George Marshall. On
Bush's advice, Roosevelt chose the Army to run the project
rather than the Navy, although the Navy had shown far
more interest in the field, and was already conducting
research into atomic energy for powering ships. Bush's
negative experiences with the Navy had convinced him that
it would not listen to his advice, and could not handle
large-scale construction projects.
Bush
sent a report to Roosevelt in March 1942. In it, he outlined
work by Robert Oppenheimer on the nuclear cross section
of uranium-235. Oppenheimer's calculations, which Bush
had George Kistiakowsky check, estimated that the critical
mass of a sphere of uranium-235 was in the range of 2.5
to 5 kilograms, with a destructive power of around 2,000
tons of TNT. Moreover, it appeared that plutonium might
be even more fissile. After conferring with Brigadier
General Lucius D. Clay about the construction requirements,
Bush drew up a submission for $85 million in fiscal year
1943 for four pilot plants, which he forwarded to Roosevelt
on June 17, 1942. With the Army on board, Bush moved to
streamline oversight of the project by the OSRD, replacing
the S-1 Section with a new S-1 Executive Committee.
Bush
soon became dissatisfied with the dilatory way the project
was run, with its indecisiveness over the selection of
sites for the pilot plants. He was particularly disturbed
at the allocation of an AA-3 priority which would delay
completion of the pilot plants by three months. Bush complained
about these problems to Bundy and Under Secretary of War
Robert P. Patterson. Major General Brehon B. Somervell,
the commander of the Army's Services of Supply, appointed
Brigadier General Leslie R. Groves as project director
in September. Within days of taking over, Groves approved
the proposed site at Oak Ridge, Tennessee, and obtained
a AAA priority. At a meeting in Stimson's office on September
23 attended by Bundy, Bush, Conant, Groves, Marshall Somervell
and Stimson, Bush put forward his proposal for steering
the project by a small committee answerable to the Top
Policy Group. The meeting agreed with Bush, and created
a Military Policy Committee chaired by Bush himself, with
Somervell's Chief of Staff, Brigadier General Wilhelm
D. Styer, representing the Army, and Rear Admiral William
R. Purnell representing the Navy.
At
the meeting with Roosevelt on October 9, 1941, Bush advocated
cooperating with the United Kingdom, and he began corresponding
with his British counterpart, Sir John Anderson. But by
October 1942, Conant and Bush agreed that a joint project
would pose security risks and be more complicated to manage.
Roosevelt approved a Military Policy Committee recommendation
stating that information given to the British should be
limited to technologies that they were actively working
on and should not extend to post-war developments. In
July 1943, on a visit to London to learn about British
progress on antisubmarine technology, Bush, Stimson and
Bundy met with Anderson, Lord Cherwell and Winston Churchill
at 10 Downing Street. At the meeting, Churchill forcefully
pressed for a renewal of interchange, while Bush defended
current policy. Only when he returned to Washington did
he discover that Roosevelt had agreed with the British.
The Quebec Agreement merged the two atomic bomb projects,
creating a Combined Policy Committee with Stimson, Bush
and Conant as United States representatives.
Bush
appeared on the cover of Time magazine on April 3, 1944.
He toured the Western Front in October 1944, and spoke
to ordnance officers, but no senior commander would meet
with him. Bush was able to meet with Samuel Goudsmit and
other members of the Alsos Mission, who assured him that
there was no danger from the German project; Bush conveyed
this assessment to Lieutenant General Bedell Smith. In
May 1945, Bush became part of the Interim Committee formed
to advise the new President, Harry S. Truman, on nuclear
weapons. The Interim Committee advised that the atomic
bomb should be used against an industrial target in Japan
as soon as possible and without warning. Bush was present
at the Alamogordo Bombing and Gunnery Range on July 16,
1945, for the Trinity nuclear test, the first detonation
of an atomic bomb. Afterwards, Bush took his hat off to
Oppenheimer in tribute.
In
As We May Think Bush wrote: "This has not been a
scientist's war; it has been a war in which all have had
a part. The scientists, burying their old professional
competition in the demand of a common cause, have shared
greatly and learned much. It has been exhilarating to
work in effective partnership."
Post-war
years
Memex
concept
Bush
introduced the concept of the memex during the 1930s,
which he imagined as a form of memory augmentation involving
a microfilm-based "device in which an individual
stores all his books, records, and communications, and
which is mechanized so that it may be consulted with exceeding
speed and flexibility. It is an enlarged intimate supplement
to his memory." He wanted the memex to behave like
the "intricate web of trails carried by the cells
of the brain", but easily accessible as "a future
device for individual use ... a sort of mechanized private
file and library" in the shape of a desk. The memex
was also intended as a tool to study the "awe-inspiring"
brain, particularly the way the brain links data by association
rather than by indexes and traditional, heirarchical storage
paradigms.
After
thinking about the potential of augmented memory for several
years, Bush set out his thoughts at length in As We May
Think, an essay published in the Atlantic Monthly in July
1945. In the article, Bush predicted that "wholly
new forms of encyclopedias will appear, ready made with
a mesh of associative trails running through them, ready
to be dropped into the memex and there amplified".
A few months later, Life magazine published a condensed
version of As We May Think, accompanied by several illustrations
showing the possible appearance of a memex machine and
its companion devices.
Library
scientist Michael Buckland regards the memex as severely
flawed. Buckland blames the weakness of the device on
Bush's limited understanding of information science and
microfilm. In his popular essay, Bush did not refer to
the microfilm-based workstation proposed by Leonard Townsend
during 1938, or the microfilm and electronics-based selector
described in more detail and patented by Emanuel Goldberg
in 1931. Shortly after As We May Think was originally
published, Douglas Engelbart read it, and with Bush's
visions in mind, commenced work that would later lead
to the invention of the mouse. Ted Nelson, who coined
the terms "hypertext" and "hypermedia",
was also greatly influenced by Bush's essay.
National
Science Foundation
The
OSRD continued to function actively until some time after
the end of hostilities, but by 1946 and 1947 it had been
reduced to a minimal staff charged with finishing work
remaining from the war period; Bush was calling for its
closure even before the war had ended. During the war,
the OSRD had issued contracts as it had seen fit. Just
eight contractors had accounted for half of OSRD's spending.
MIT was the largest contractor to receive funds, with
its obvious ties to Bush and his close associates. Efforts
to obtain legislation exempting the OSRD from the usual
government conflict of interest regulations failed, leaving
Bush and other OSRD principals open to prosecution. Bush
therefore pressed for OSRD to be wound up as soon as possible.
With
its dissolution, Bush and others had hoped that an equivalent
peacetime government research and development agency would
replace the OSRD. Bush felt that basic research was important
to national survival for both military and commercial
reasons, requiring continued government support for science
and technology; technical superiority could be a deterrent
to future enemy aggression. In Science, The Endless Frontier,
a July 1945 report to the president, Bush maintained that
basic research was "the pacemaker of technological
progress". "New products and new processes
do not appear full-grown," Bush wrote in the
report. "They are founded on new principles and
new conceptions, which in turn are painstakingly developed
by research in the purest realms of science!"
In Bush's view, the "purest realms" were the
physical and medical sciences; he did not propose funding
the social sciences. In Science, The Endless Frontier,
science historian Daniel Kevles later wrote, Bush "insisted
upon the principle of Federal patronage for the advancement
of knowledge in the United States, a departure that came
to govern Federal science policy after World War II."
In
July 1945, the Kilgore bill was introduced in Congress,
proposing the appointment and removal of a single science
administrator by the president, with emphasis on applied
research, and a patent clause favoring a government monopoly.
In contrast, the competing Magnuson bill was similar to
Bush's proposal to vest control in a panel of top scientists
and civilian administrators with the executive director
appointed by them. The Magnuson bill emphasized basic
research and protected private patent rights. A compromise
Kilgore–Magnuson bill of February 1946 passed the
Senate but expired in the House because Bush favored a
competing bill that was a virtual duplicate of the original
Magnuson bill. A Senate bill was introduced in February
1947 to create the National Science Foundation (NSF) to
replace the OSRD. This bill favored most of the features
advocated by Bush, including the controversial administration
by an autonomous scientific board. The bill passed the
Senate and the House, but was pocket vetoed by Truman
on August 6, on the grounds that the administrative officers
were not properly responsible to either the president
or Congress. The OSRD was abolished without a successor
organization on December 31, 1947.
Without
a National Science Foundation, the military stepped in,
with the Office of Naval Research (ONR) filling the gap.
The war had accustomed many scientists to working without
the budgetary constraints imposed by pre-war universities.[89]
Bush helped create the Joint Research and Development
Board (JRDB) of the Army and Navy, of which he was chairman.
With passage of the National Security Act on July 26,
1947, the JRDB became the Research and Development Board
(RDB). Its role was to promote research through the military
until a bill creating the National Science Foundation
finally became law. By 1953, the Department of Defense
was spending $1.6 billion a year on research; physicists
were spending 70 percent of their time on defense related
research, and 98 percent of the money spent on physics
came from either the Department of Defense or the Atomic
Energy Commission (AEC), which took over from the Manhattan
Project on January 1, 1947. Legislation to create the
National Science Foundation finally passed through Congress
and was signed into law by Truman in 1950.
The
authority that Bush had as chairman of the RDB was much
different from the power and influence he enjoyed as director
of OSRD and would have enjoyed in the agency he had hoped
would be independent of the Executive branch and Congress.
He was never happy with the position and resigned as chairman
of the RDB after a year, but remained on the oversight
committee. He continued to be skeptical about rockets
and missiles, writing in his 1949 book, Modern Arms and
Free Men, that intercontinental ballistic missiles would
not be technically feasible "for a long time to come
... if ever".
Later
life
With
Truman as president, cronies like John R. Steelman, who
was appointed Chairman of the President's Scientific Research
Board in October 1946, came to prominence. While Bush
remained a revered figure, his authority, both among scientists
and politicians, suffered a rapid decline. However, he
still remained a public authority figure. In September
1949, Bush was appointed to head a scientific panel that
included Oppenheimer to review the evidence that the Soviet
Union had tested its first atomic bomb. The panel concluded
that it had, and this finding was relayed to Truman, who
made the public announcement. Bush was outraged when the
Oppenheimer security hearing stripped Oppenheimer of his
security clearance in 1954; he issued a strident attack
on Oppenheimer's accusers in the New York Times. Alfred
Friendly summed up the feeling of many scientists in declaring
that Bush had become "the Grand Old Man of American
science".
Bush
continued to serve on the NACA through 1948 and expressed
annoyance with aircraft companies for delaying development
of a turbojet engine because of the huge expense of research
and development plus retooling from older piston engines.
Bush was similarly disappointed with the automobile industry,
which showed no interest in his proposals for more fuel
efficient engines. General Motors told him that "even
if it were a better engine, [General Motors] would not
be interested in it." Bush likewise deplored
trends in advertising. "Madison Avenue believes,"
he said, "that if you tell the public something
absurd, but do it enough times, the public will ultimately
register it in its stock of accepted verities."
From
1947 to 1962, Bush was on the board of directors for American
Telephone and Telegraph. He retired as president of the
Carnegie Institution and returned to Massachusetts in
1955, but remained a director of Metals and Controls Corporation
from 1952 to 1959, and of Merck & Co. from 1949 to
1962. Bush served as chairman of the board at Merck from
1957 to 1962. He was a trustee of Tufts College from 1943
to 1962, of Johns Hopkins University from 1943 to 1955,
of the Carnegie Corporation of New York from 1939 to 1950,
the Carnegie Institution of Washington from 1958 to 1974,
and the George Putnam Fund of Boston from 1956 to 1972,
and was a regent of the Smithsonian Institution from 1943
to 1955.
Bush
received the AIEE's Edison Medal in 1943, "for his
contribution to the advancement of electrical engineering,
particularly through the development of new applications
of mathematics to engineering problems, and for his eminent
service to the nation in guiding the war research program."
In 1945, Bush was awarded the Public Welfare Medal from
the National Academy of Sciences. In 1949, he received
the IRI Medal from the Industrial Research Institute in
recognition of his contributions as a leader of research
and development. President Truman awarded Bush the Medal
of Merit with bronze oak leaf cluster in 1948, President
Lyndon Johnson awarded him the National Medal of Science
in 1963, and President Richard Nixon presented him with
the Atomic Pioneers Award from the Atomic Energy Commission
in February 1970. Bush was also made a Knight Commander
of the British Empire in 1948, and an Officer of the French
Legion of Honor in 1955.
After
suffering a stroke in 1974, Bush died in Belmont, Massachusetts,
at the age of 84 from pneumonia on June 28, 1974. He was
survived by his sons Richard, a surgeon, and John, president
of Millipore Corporation, and by six grandchildren and
his sister Edith. Bush's wife had died in 1969. He was
buried at South Dennis Cemetery in South Dennis, Massachusetts,
after a private funeral service. At a public memorial
subsequently held by MIT, Jerome Wiesner declared "No
American has had greater influence in the growth of science
and technology than Vannevar Bush".
In
1980, the National Science Foundation created the Vannevar
Bush Award to honor his contributions to public service.
The Vannevar Bush papers are located in several places,
with the majority of the collection held at the Library
of Congress. Additional papers are held by the MIT Institute
Archives and Special Collections, the Carnegie Institution,
and the National Archives and Records Administration.
Source:
http://en.wikipedia.org/wiki/Vannevar_Bush
