A project to build a hoverboard using parts from the hemi engine, a type of hydraulic pump used to power vehicles, has gone from zero to a prototype within a month.
The Hemi Engine is a modified version of the Hemi engine found in many hoverboards.
The engine can pump water to propel a vehicle, like a hovercar, into the air, or propel it through the air when pushed into a wall, like an airplane.
It’s also used to generate a “motorcycle” or “machinery” for the hoverboard.
“We built it on the cheap to get the design going,” Andrew Loughran, who helped build the project, told Ars.
“It’s an interesting concept that’s been around for a long time, and the technology is there.
It can be made to run a hover board in a short time.”
The prototype was built by an engineer at the University of Reading, and was a success.
“It’s the sort of thing that would have been possible a year ago, if we hadn’t been able to make that breakthrough,” Loughan said.
“The engineering team, the engineering team is really focused on the hover board and it’s going to get a lot better and better as we get more people involved.”
The company, called Hemi Engineering, is also hoping to sell the project to others interested in developing hoverboard-like machines.
“If someone wants to develop an engine for something, we would love to have it available,” Laugran said.
“If someone wanted to do something else with a hover bike, we’d love to sell it.”
Loughran and his colleagues had hoped to sell their project, which was developed in partnership with the University, to a startup.
However, he said the startup was unable to raise money from investors for the project.
Instead, they decided to build the hoverboards themselves.
The design is essentially the same as an aircraft propeller, with a motor mounted on the side of the hover, called a hemi pump.
It takes water and a mixture of hydrocarbons and water from a tank and pumps it up into a rotor that can spin the rotor.
The motor uses a series of motors, one on each side of each motor, to rotate the rotor, which is then attached to a spring that moves in a direction, similar to a boat propeller.
Loughan and his team are now working to create a more complex design that could be used in hoverboards, or other similar hovercrafts.
The team also plans to sell a version of their hoverboard that is much more complicated, with wheels mounted on a chassis.
The goal of the project is to get people interested in building their own hoverboards so they can start building prototypes, as well as develop a manufacturing platform for the products.
“This is a project that’s going forward, we’re going to do a lot of things,” Lougan said, adding that he and his teammates are working on the design and manufacturing platform.
“I’ve never seen a project like this, with so much thought and so much technical sophistication.
It is amazing.”