As materials become more advanced, more complex; or, in some cases, simpler; mechanical designs become possible. Aluminum allows for the creation of frames that can accept cloth or fiber sheets to provide temporary flight. Titanium allows for more powerful turbine designs. Stronger fibers let people distribute more weight across smaller areas. The possibilities increase phenomenally.
WIth rust-free, cheap materials, appliances without electricity become easier, like roller floor cleaners and street sweepers. Frameworks for buildings can become more creative, as steel alloys provide stronger rebar and cities transform.
Sadly, this section is short, as many of the designs developed are involved in secret military applications across the world. However, the secret to flight; weight to lift ratio; is perhaps the most significant, and will assuredly change the world someday. Similarly, ships capable of traversing underwater will be possible as air pockets will be more easily supported within a metal structure. In short, the mechanical designs to be developed will revolutionize movement and travel.
The primary takeaway for mechanical design is intricacy of parts, complexity of parts that work together, and principle of how parts are used.
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