SturdyBegger
10 mW
You know those concentrated solar installations with the tower and the mirrors?
It would be sick to make quadcopters that fly into the focal points of a heliostat. Rather than a large circularly shaped heliostat, I think I would make it more rectangular and make multiple focal points along the focal line of the rectangle. The bottom of the quadcopters would have photovoltaic cells to generate electrical power for the electrical systems.
I kind of wanted to see them fly progressively down the line of this rectangular heliostat through the different focal points, charging the battery, and they would have a tesla coil on them so that they could discharge wirelessly to my grid. This is part of my rush delivery system for delivering medical supplies like organs and blood for important surgeries. So, when they have a payload, the quadcopter would have another supersonic aircraft that it would lift straight up to altitude, instead of discharging to the grid, and launch the supersonic aircraft on a downward trajectory that is sinusoidal, because it is regenerating liquid propellant and electricity along its extended decent. So, when it regenerates the aircraft looses altitude, when it thrusts it gains altitude.
This two stage system is advantageous for the purposes of automating the flight plans of these two aircrafts. An electric quadcopter is obviously impractical for the purposes of medicine and a gas powered helicopter at the hospital would be more ideal. Helicopters are very good at going straight up, an easy flight plan to automate. Then, the second aircraft already has the downward sinusoidal trajectory. These would be like the linear segments that form the carrier signal of the flight plan that is generated with the atmospheric data and destination. Stage 1, straight up. Stage 2, downward sinusoidal trajectory.
it would need two parachutes, one that deploys while it puts out the secondary quadcopter rotors, and a backup parachute.
I don't know, I get bored.
It would be sick to make quadcopters that fly into the focal points of a heliostat. Rather than a large circularly shaped heliostat, I think I would make it more rectangular and make multiple focal points along the focal line of the rectangle. The bottom of the quadcopters would have photovoltaic cells to generate electrical power for the electrical systems.
I kind of wanted to see them fly progressively down the line of this rectangular heliostat through the different focal points, charging the battery, and they would have a tesla coil on them so that they could discharge wirelessly to my grid. This is part of my rush delivery system for delivering medical supplies like organs and blood for important surgeries. So, when they have a payload, the quadcopter would have another supersonic aircraft that it would lift straight up to altitude, instead of discharging to the grid, and launch the supersonic aircraft on a downward trajectory that is sinusoidal, because it is regenerating liquid propellant and electricity along its extended decent. So, when it regenerates the aircraft looses altitude, when it thrusts it gains altitude.
This two stage system is advantageous for the purposes of automating the flight plans of these two aircrafts. An electric quadcopter is obviously impractical for the purposes of medicine and a gas powered helicopter at the hospital would be more ideal. Helicopters are very good at going straight up, an easy flight plan to automate. Then, the second aircraft already has the downward sinusoidal trajectory. These would be like the linear segments that form the carrier signal of the flight plan that is generated with the atmospheric data and destination. Stage 1, straight up. Stage 2, downward sinusoidal trajectory.
it would need two parachutes, one that deploys while it puts out the secondary quadcopter rotors, and a backup parachute.
I don't know, I get bored.
