High powered rocketry has a problem. Many individuals looking to deliver large payloads into the atmosphere have restrictive budgets. This project’s solution is a cluster rocket. These are rockets which use a group of smaller motors to deliver the same thrust as a larger motor. However, these smaller motors cannot deliver thrust for the same amount of time as the larger motors, resulting in a lower maximum altitude. A logical solution is a cluster rocket off another cluster rocket. In this study, an eleven motor cluster-on-cluster rocket is being designed with this in mind. This means that the rocket first fires seven motors simultaneously. After these motors have spent their fuel, the section containing them drops away and a second set of cluster motors fires. This more than doubles the maximum altitude of a single stage rocket. Because a rocket like this has never been launched at UW before, several experimental parts were designed for it. These include a flight computer a sixth the size of a traditional one, an internal cluster motor mount, and a transition capable of reinforcing a body tube internally. In order to complete this project, we utilized a wide variety of materials and construction techniques, from wet-lay carbon fiber to Kevlar to Popsicle sticks. We also put together one of the largest teams devoted to a single rocket, with members in the ME, AA, EE, IE, HCDE, and physics departments. This prototype was launched in March at Black Rock, NV and saw a reasonable amount of success. All motors ignited coming off the pad and the rocket maintained structural integrity until the recovery system on the first stage failed and it crashed. The second stage was recovered with no damage and will continue to be used as an example in the construction of internal clusters.