You are 45 m deep in the ocean of Ross 128b (R = 1.8 R; M= 1.4 M). Find the pressure on you. Use the density of seawater. You have a hydraulic system that lifts vehicles here. The area of the small piston is 0.06 m^2 and the maximum force applied is 2500 N. If the bigger piston has an area of 1.2 m^2, what is the maximum mass that can be lifted? If the small piston is pushed down 2m, how high will the other piston lift?
You are 45 m deep in the ocean of Ross 128b (R = 1.8 R; M= 1.4 M). Find the pressure on you. Use the density of seawater. You have a hydraulic system that lifts vehicles here. The area of the small piston is 0.06 m^2 and the maximum force applied is 2500 N. If the bigger piston has an area of 1.2 m^2, what is the maximum mass that can be lifted? If the small piston is pushed down 2m, how high will the other piston lift?
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Transcribed Image Text:You are 45 m deep in the ocean of Ross 128b (R = 1.8 R; M= 1.4 M). Find the pressure on you. Use the density of seawater.
You have a hydraulic system that lifts vehicles here. The area of the small piston is 0.06 m^2 and the maximum force applied
is 2500 N. If the bigger piston has an area of 1.2 m^2, what is the maximum mass that can be lifted? If the small piston is
pushed down 2m, how high will the other piston lift?
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