Okarin’s design for his Future Gadget #23.0 involved a 2.30-m tall time machine. For it to work, he needed to make the coolant fluid at the bottom of the device rise to the top through a pipe. He proposed doing this by installing some vacuum functionality at the top of the pipe to suck up the fluid. His close friend Daru told him though that it would take a perfect vacuum to make the fluid barely reach the top. As Okarin and Daru ponder this problem, calculate the density of the coolant fluid, assuming their future gadget lab, located in Akihabara, is at sea level. Answer in kg/m3.
Okarin’s design for his Future Gadget #23.0 involved a 2.30-m tall time machine. For it to work, he needed to make the coolant fluid at the bottom of the device rise to the top through a pipe. He proposed doing this by installing some vacuum functionality at the top of the pipe to suck up the fluid. His close friend Daru told him though that it would take a perfect vacuum to make the fluid barely reach the top. As Okarin and Daru ponder this problem, calculate the density of the coolant fluid, assuming their future gadget lab, located in Akihabara, is at sea level. Answer in kg/m3.
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Okarin’s design for his Future Gadget #23.0 involved a 2.30-m tall time machine. For it to work, he needed to make the coolant fluid at the bottom of the device rise to the top through a pipe. He proposed doing this by installing some vacuum functionality at the top of the pipe to suck up the fluid. His close friend Daru told him though that it would take a perfect vacuum to make the fluid barely reach the top. As Okarin and Daru ponder this problem, calculate the density of the coolant fluid, assuming their future gadget lab, located in Akihabara, is at sea level. Answer in kg/m3.
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