which were soon to come in, the pilot put the airscrew in ‘fine’ for take-off. This provided less speed but more power, giving maximum thrust – the equivalent in motoring terms of first gear. Once aloft, the pilot changed to ‘coarse’, altering the angle of the propeller blade so that it was taking bigger bites out of the air, generating less power but more speed. Later both types would be fitted with constant-speed governors that adjusted the blade angles automatically. Beamont thought flying a Hurricane was ‘simple, straightforward’. Christopher Foxley-Norris found it reassuring. ‘You get into an aircraft and it gives you confidence. You get into another one and it doesn’t…[The Hurricane] was very stable but at the same time manoeuvrable. If you didn’t want it to do a turn it was absolutely rock stable. If you did turn it was very manoeuvrable.’3
The Hurricane was slower than a Spitfire but could turn more tightly. Its wide-legged undercarriage, which opened outwards, planting the aeroplane firmly on the ground, made it ‘very forgiving’, another advantage over the Spitfire, which balanced on a narrow wheelbase. The initial canvas-and-girder construction of the fuselage meant bullets and cannon shells could go straight through it without bringing the aircraft down, and its sturdy wings provided solid bracing for the eight Brownings. It was, everyone said, an ‘excellent gun platform’, better, in fact, than the Spitfire. The machine guns were arranged in two groups of four, as close in to the fuselage as they could be placed to clear the propeller. The Spitfire’s armament was spread out, with the outboard gun a third of the way in from the wing-tip; then a group of two, then an inboard gun on each wing, which could cause some flexing when the guns fired, making them less accurate. The Hurricane was fast and nimble but honest. It was not quite perfect. Pete Brothers discovered ‘it could fall out of the air if you mistreated it trying to be too clever’.
The arrival of the new fighters aroused the fervent interest of newspapers and newsreel companies. Brown remembered them making ‘an absolute meal of the Hurricane. We were wonderboys, travelling at vast speeds, pulling all this G [the heavy gravitational force exerted when turning]. We were getting constant visits from the press and staff colleges who wanted to see these things in action.’4 Having appeared before the Spitfire, the Hurricane was the first to plant itself in the public imagination, though its primacy did not long survive the arrival of its more beautiful sister. The public perception that it represented a battle-winning technical advance was encouraged by a government and military establishment anxious to reassure citizens that the criticisms of the rearmament lobby were unfounded. Some pilots, used to the fixed wheels, open cockpits, broad flying surfaces and manageable speeds of the old types, wondered whether they would be able to cope. The difficulties which 111 Squadron had in making the transition were not reassuring. Some pilots simply could not adjust. Several were killed. One Australian pilot took off without realizing the wheel brakes were engaged. He only avoided crashing on take-off and landing because the field was so muddy the aeroplane slithered through the grass. When he made a subsequent landing without lowering the undercarriage, he was rapidly posted away.
Pilots liked the Hurricane’s chunky lines and solid profile. The lean, curved elegance of the Spitfire inspired something more profound. There was never ‘a plane so loved by pilots’, wrote Hugh Dundas.5 ‘Everybody wanted to fly a Spitfire,’ said Jeffrey Quill. ‘Most pilots used to want to fly the best. It certainly was the best.’ Quill knew the quality of the machine better than anyone. He was a test pilot at Supermarine and had taken the Spitfire through the most difficult stages of its development, as the design team struggled to overcome profound technical problems that were preventing it from making the evolutionary transition from being a very good aeroplane to a great one.
Quill was intelligent, shrewd and popular in both air force and civilian aviation circles, as much for his good nature as his superb abilities as a pilot. His father was Irish, an engineer who among other things had built Sierra Leone’s water system before retiring to Littlehampton in Sussex. He died in 1926 when Jeffrey was thirteen and a schoolboy at Lancing. As a young boy he watched the aeroplanes at the RFC base at Ford, near the family home. He decided early on to go into the air force, but he was the youngest of five children and there was little money. He had to forgo Cranwell, where his family would have had to support him for two years, and applied instead for a short-service commission. His first posting was to 17 Squadron, flying Bulldogs. Then he joined the Meteorological Flight at Duxford, which made daily sorties to take weather-forecasting readings, dangerous work that was given only to very good pilots. He hoped for a permanent RAF commission. But even in 1935, with expansion under way, his prospects were not sure and with some misgivings he accepted an offer to join Supermarine as an assistant to its chief test pilot, Mutt Summers, working on the Spitfire.
Progress was fitful. The prototype could not reach the 350 m.p.h. expected of it, only scraping up to 335 m.p.h. The propeller was one problem. It had been supplied by an outside contractor. A new one was designed by the Supermarine team and added an extra 13 m.p.h. Then the body surface was not smooth enough. Sinking rivets into the skin of the airframe would have brought better aerodynamic efficiency, but doing so would take much time and money. The team stuck split peas on the prototype to simulate round-headed rivets, which were much simpler to punch, then progressively removed them during aerodynamic tests to see which surfaces absolutely required flush rivets and which did not.
Failure to solve these problems and reach the performance levels Mitchell had claimed for his design could have meant the Spitfire never going into service. Quill and the rest of the team knew what was at stake. Later he revealed how close the decision had been. ‘A lot of people felt that the Spitfire, although it had a very good performance…had been bought at too high a price. In terms of ease of production it was going to be a much more expensive and difficult aeroplane to mass produce. In terms of the ease of maintenance it was going to be a much more complicated aeroplane to look after and service…For instance, you could lower the undercarriage of a Hurricane and take the wings off because the undercarriage was in the centre section…You could take the wings off, put the tail up on a three-ton lorry and tow it along the road. You couldn’t do that with a Spitfire. If you took the wings off…it took the undercarriage off as well…There were a lot of people who were against the Spitfire for those practical considerations. Therefore if we had not been able to show a really definite advantage over the Hurricane, it probably wouldn’t have been ordered. We were well aware of that.’
A final, crucial question had to be settled. In May 1936 a prototype was sent to the RAF Aircraft and Armament Establishment at Martlesham for trials by the service’s test pilots. Before the programme was complete, the research and development representative on the Air Council, Wilfred Freeman, asked the establishment’s flight commander Flight Lieutenant Humphrey Edwards-Jones, whether the Spitfire could be flown with relative ease by ordinary squadron pilots. ‘Old “E.-J.” quite rightly said, “Yes, it can,”’ Quill said later. On the strength of this judgement, before any performance testing had taken place, the decision to order was made. Quill reckoned there would have been ‘an awful delay if he’d hedged about that. It was one of the best things ever done.’6
No. 19 Squadron had been chosen as the first unit to receive the Spitfire because of its record of superlative flying, demonstrated at displays around the country by an aerobatic team which performed such impressive but not necessarily militarily useful stunts as flying in rigid formation tied together with ropes. The five pilots selected to put the Spitfire through a 500-hour series of tests included two sergeants, George Unwin, the Ruislip apprentice, and his best friend Harry Steere. Unwin was particularly struck by the sensitivity of the controls. ‘There was no heaving or pulling and pushing and kicking, you just breathed on it. She really was the perfect flying machine. She hadn’t got a vice at all. She would only spin if you made her and she’d come straight out of it as soon as you applied opposite rudder and pushed the stick forward…I’ve never flown anything sweeter.’ The Spitfire’s engine note was instantly recognizable to those who had flown it, and distinct from that of a Hurricane, even though they both had the same Merlin power unit. Many years later Unwin was coming out of Boots in Bournemouth with his wife when he heard