Physex Penney registered himself as available for scientific war work, but heard nothing for several months after the outbreak of the
Second World War in September 1939. He was then approached by
Geoffrey Taylor. Taylor was an expert on
fluid dynamics, and was dealing with more questions from government departments regarding the effects of explosions than he had time to answer. He asked Penney if he could investigate the behaviour of an underwater explosion. Penney became a member of the Physics of Explosives Committee (Physex), and reported his results to another committee, Undex, which was run by the
Admiralty and was interested in underwater explosions such as those created by
mines,
torpedoes and
depth charges, and their effects on the hulls of ships and
submarines. Most of the data on underwater explosions was from the First World War. With
Royal Navy engineer officers Penney designed and supervised development of
Bombardon breakwaters, steel structures that formed part of the
Mulberry harbours that were placed off the
Normandy beaches after the
D-Day invasion. These mobile breakwaters protected landing craft and troops from the Atlantic rollers. Penney's job was to calculate the effects of waves on the Bombardons and devise the most efficient arrangement of them.
Manhattan Project of the United States. The August 1943
Quebec Agreement provided for British support of the American
Manhattan Project, which aimed to develop
atomic bombs. Over the objections of the Admiralty and Imperial College, Penney was sent to join the team of British scientists at the Manhattan Project's
Los Alamos Laboratory in New Mexico, where expertise on explosions and their effects was in demand. At Los Alamos Penney gained recognition for his scientific talents, and also for his leadership qualities and ability to work in harmony with others. Within a few weeks of his arrival he was added to the core group of scientists making key decisions in the direction of the programme.
Major General Leslie Groves, the director of the Manhattan Project, later wrote: One of Penney's assignments at Los Alamos was to predict the damage effects from the blast wave of an atomic bomb. Soon after he arrived at Los Alamos, he gave a talk on the subject. Fellow Manhattan Project scientist
Rudolf Peierls recalled that: . Penney is in the second row from the front, third from the left Penney's wife never recovered from
post-natal depression after Christopher's birth, and died on 18 April 1945. He arranged for Joan Quennell, a nurse, to look after the boys. He wanted to return home, but Groves told
James Chadwick, the British liaison to Manhattan Project in
Washington, D.C., that Penney was too important to the project to be released. On 27 April 1945 Penney went to Washington for a target selection meeting. He gave advice regarding the height of the detonation which would ensure optimum destructive effects, whilst ensuring the fireball did not touch the earth, thereby avoiding permanent radiation contamination on the ground. The committee selected four cities from a list of seventeen. Penney attempted to forecast casualties and damage effects, but this was difficult because the exact energy of the bombs was not known. This was answered by the
Trinity test detonation on 16 July 1945. Penney was assigned as an observer on an aircraft, but the flight was cancelled due to bad weather, and he did not witness the test. Five days later, Penney gave a presentation on the results of the test, during which he predicted that the bomb would level a city of three or four hundred thousand people. The following month Penney went to
Tinian Island as part of
Project Alberta, the group of scientists and military personnel that assembled the atomic bombs. Along with
Royal Air Force (RAF)
Group Captain Leonard Cheshire from the
British Joint Staff Mission in Washington, he represented the United Kingdom. The American authorities stopped them observing the
bombing of Hiroshima but, after an appeal to Chadwick, they were permitted to accompany the second mission. On 9 August 1945 Penney witnessed the bombing of Nagasaki, flying with Cheshire in the
B-29 observation plane
Big Stink.
Big Stink missed its rendezvous with the bomber
Bockscar, so they witnessed the flash of the Nagasaki detonation from the air at too great a distance to photograph the fireball and the target was obscured by clouds. As the leading expert on the effects of explosions, Penney was a member of the team of scientists and military analysts who entered Hiroshima and Nagasaki following the Japanese surrender on 15 August 1945 to assess the effects of nuclear weapons. Penney returned to the United Kingdom on a civilian flight from the United States in September 1945. He brought artefacts from Hiroshima and Nagasaki with him, and was charged for excess baggage. He married Joan Quennell on 3 November 1945. Penney returned to Imperial College, where he wrote a report on Hiroshima and Nagasaki. He estimated that the bomb dropped on the former had a
yield of and that of the Nagasaki bomb of about . He wanted to return to academic life, and he was offered a chair of mathematics at the
University of Oxford. ==British Nuclear Weapons Programme==