Problem-4: An inverted hollow container with a uniform cross section area, A and height, H is slowly pushed into water as shown. The water rises into the container by a distance I (and compresses the air inside isothermally) as the cylinder is submerged into water by distance, d as shown in the schematic. 1. Derive the relation between 1 and d in terms of water density and container geometry (A and H). = 2. Plot/sketch the same for 0 ≤ d ≤ H taking H 1m. d Water H Air A
Problem-4: An inverted hollow container with a uniform cross section area, A and height, H is slowly pushed into water as shown. The water rises into the container by a distance I (and compresses the air inside isothermally) as the cylinder is submerged into water by distance, d as shown in the schematic. 1. Derive the relation between 1 and d in terms of water density and container geometry (A and H). = 2. Plot/sketch the same for 0 ≤ d ≤ H taking H 1m. d Water H Air A
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![Problem-4: An inverted hollow container with a uniform cross section area, A and height, H is
slowly pushed into water as shown. The water rises into the container by a distance l (and
compresses the air inside isothermally) as the cylinder is submerged into water by distance, d as
shown in the schematic.
1. Derive the relation between 1 and d in terms of water density and container geometry (A
and H).
Plot/sketch the same for 0 ≤ d ≤ H taking H = 1m.
2.
Water H
Air
A
1](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa3dfecef-4923-4e36-9b92-ed17d3760600%2F6248dcf7-c72d-48fe-b6e2-f11f09a31018%2F9pmk4ah_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Problem-4: An inverted hollow container with a uniform cross section area, A and height, H is
slowly pushed into water as shown. The water rises into the container by a distance l (and
compresses the air inside isothermally) as the cylinder is submerged into water by distance, d as
shown in the schematic.
1. Derive the relation between 1 and d in terms of water density and container geometry (A
and H).
Plot/sketch the same for 0 ≤ d ≤ H taking H = 1m.
2.
Water H
Air
A
1
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