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Since there is a small, medium, and large solar panel (the Solar Array being the large solar panel), there should be a small, medium, and large wind turbine, but there is not a large one. I think that should change, because from the very beginning wind and solar power are kind of like the renewable energy rivals. Many people prefer wind over solar and vice versa, which makes sense in part due to they both activate under specific circumstances; neither occur 24/7 but wind can occur at any point of the day, but is unpredictable, while solar panels only work during the day but provides a constant stream of power. But would the Large Wind Turbine cost resource and byte size? How much power would it provide? Well I have the answer: Since the small and wind turbines are generally cheaper than their solar counterpart; each level of each are the same size level, i.e. both small versions can be printed on the backpack printer and so forth. The Large Wind Turbine would be cheaper, but not incredibly cheaper, than the Solar Array. The chart below shows the progression of each item, including the yet-to-be-implemented Large Wind Turbine. (for the resources, "copper -> + glass" means that the first level costs copper, and the second level, signified by the "->", costs glass on top of the previously listed resource(s), signified by the "+") Solar Power Bytes: 500 -> 3,750 -> 6,250 Power Output (Units/second): 0.5 -> 2.0 -> 8.0 Resources: copper -> + glass -> + plastic (requires chemistry lab) + graphene (requires chemistry lab and atmospheric condenser) Wind Power Bytes: 500 -> 2,500 -> 5,000 Power Output (Units/second): 0.5 -> 1.0 -> 6.0 Resources: glass -> + ceramic -> + plastic (requires chemistry lab) + steel (requires chemistry lab and atmospheric condenser) Reasoning behind the suggested costs: Since the medium wind turbine's byte cost is less than the medium solar panel's but not by a substantial about, the Large Wind Turbine's byte cost is reasonably less than the Solar Array's. For the power output, the medium solar panel outputs twice as much as the medium wind turbine, but if that stayed consistent the Large Wind Turbine's power output would be a measly 4 Units/second, which would make the Large Wind Turbine essentially useless when it comes to power, especially because the RTG, which isn't too much more work to make, outputs 4 Units/second of power as well. Therefore, the Large Wind Turbine's power output is 6 Units/second, which is more than the RTG, but less than the Solar Array, meaning the scaling is on par. The resource cost of the Large Wind Turbine costs glass and ceramic, which is the resources of the medium version, and plastic which is the same as the Solar Array (copper and glass - the same as the medium solar version - and plastic). The main resource difference between the Large Wind Turbine and the Solar Array is the fourth ingredient, which is Steel for the Wind path and Graphene for the Solar path. The reasoning behind Steel: The Solar Array is relatively expensive, but all the resources are on Silva, the starting planet, excluding the resources of the chemistry lab and the atmospheric condenser. The Large Wind Turbine is overall cheaper than the Solar Array, which means there needs to be something difficult about making it, which is where Steel comes into play. For Steel, you need to go to a different planet from Silva to get a gas, which is Nitrogen. That extra step makes the process of making the Large Wind Turbine more difficult. For the Solar Array, the necessary ingredients for Graphene is on Silve, but you find Ammonium and Graphite, which is more difficult to obtain than the other non-gaseous materials needed for the Solar Array, even though they generally not too difficult to obtain. Therefore, Steel being the alternative manufactured material for Graphene is balanced and continues the general path of difficulty between making the solar- and wind-powering objects. Lastly, I would prefer the name of the Large Wind Turbine to not be what it is because it seems more generic than the Solar Array, because it goes from small to medium solar panel to Solar Array, while for wind it just goes from small to medium to Large Wind Turbine. Any necessary changes are accepted when it comes to the name (which is preferred), byte cost, resource cost, and power output. For the design of the Large Wind Turbine that I had in mind is like real-life wind turbines; a picture is provided for convenience. Any necessary changes to the design are also accepted, but I would prefer that the design would be at least somewhat similar to what I had in mind, meaning that drastic changes are not preferred unless the drastic change in design looks interesting and realistic in the sense that it may possibly work in real-life, life most other items in the game.
I think there should be a new way to produce extremely large things. You would send the items in an unmanned shuttle to the space station or a new one that you would have to make. It would then take a very long time (10 - 20 mins) that would be displayed in the top corner to create a very large vehicle or structure. some examples would be a shuttle shredder, Uber Rover, or bigga shuttle. it would then be dropped from space either in pieces for you to assemble like legos or as one big boi. This would be a gamer moment if you put something like this in the game.