Contents • • • • • • • • • • • • Development history [ ] In 1993, Bill Riley began initial work on a design for a to meet the 's (IMSA) World Sports Car regulations. The new regulations, announced during the 1993 and intended to be debut in the, sought low-cost open-cockpit prototypes to replace the expensive closed-cockpit GTP models used in the. Riley & Scott, already experienced constructors in the, were looking to enter the sports prototype category of motorsports. The new car, known as the Mk III, featured a radical design with tapered rear sidepods that flowed into the rear wing mounts. This opened a large amount of empty space around the rear wheels and exposing much of the floor of the chassis. For cooling were all placed at the front of the car, under a simple sloping nose. Interest in this design was however low, and Riley & Scott did not construct a car for the 1994 season.

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During that same year, contracted Riley & Scott to aid in improving the team's current WSC car, a DR3 chassis with a engine. After completing the improvements for Dyson, Bob and Bill Riley returned to their Mk III design with new knowledge from their Dyson experience. After the Mk III was redesigned, Riley & Scott were able to convince Dyson Racing to replace their Spice-Ferrari with two new Mk IIIs for the. Bill Riley's redesigned Mk III was simpler in its design, allowing more variety for customers as well as a low cost. Although the extreme aerodynamics of the original design were gone, the car was conceived to be fast enough to compete for overall wins.

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The redesign and eventual construction of the first car took only four months. The chassis featured a with panels made of. Behind the cockpit the engine bay was designed to be large enough to allow for a variety of engines, mostly the of,, and that were common amongst IMSA GT. All cars used a 5-speed. The suspension consisted of with attached by a pushrod. A system was also part of the standard Mk III.

The redesigned carbon fiber and bodywork of the Mk III was developed by aircraft designer, who assisted Bob Riley in using early programs to refine the aerodynamics of the new car. Final aerodynamic testing was performed at a. The nose of the final Mk III was very similar to the original design model from 1993, featuring a nose which sloped downward towards a extended from the front of the car. In the center, a wide intake allowed air into the mounted flat under the nose.

The air exited the radiator from two openings on top of the nose and in front of the cockpit. Between these exit vents, teams had the option of installing extra headlights for night races. A circular duct was placed on either side of the radiator intake to allow air to the front brakes for cooling. Behind the front wheels the bodywork was now relatively square and flat, with full sidepods running the full width of the car.

A rules-mandated full width was positioned behind cockpit. Positioned under the roll hoop was an arched intake for the engine. On the sidepods several square holes were created in order to allow teams to adjust their cooling and aerodynamics dependent upon circuits and conditions. The squares could be filled with bodywork of various shapes and sizes effectively closing or opening the holes as much as the team wished. At the back of the car, the bodywork ended immediately behind the rear wheels, with only the rear wing placed beyond the end of the bodywork. Overall, the aerodynamics of the Mk III were designed to be low in, but still offer large amounts of.

In total, 17 Mk IIIs were built by Riley & Scott from 1995 until 1998, with a price of approximately $285,000 for a chassis sans engine. In 1999, Riley & Scott continued their development of the Mk III by created a second series of Mk IIIs. These cars had minor alterations, and a further four chassis were built to this specification. Several teams, hoping to remain competitive with the Mk III, also upgraded their cars to match the Series 2 specifications. One of two Mk III- used by Doyle Racing in 1996 After a successful debut season, several teams purchased Mk IIIs for 1996.

Instigated the use of V8s by the Riley & Scott-backed Doyle Racing, Dyson returned with their two entries. Doyle Racing immediately showed the potential of the Mk III-Oldsmobile combination by winning both the 24 Hours of Daytona and the 12 Hours of Sebring. Fighting throughout the season with the various Ferrari and Riley & Scott teams, Doyle won two further events before Dyson Racing ended the season with three straight victories. Doyle Racing's earned the WSC Drivers Championship, while Oldsmobile was able to win the Manufacturers Championship.