An air bubble originating from an under- water diver has a radius of 8 mm at some depth h. When the bubble reaches the surface of the water, it has a radius of 10.6 mm. The acceleration of gravity is 9.8 m/s². Assuming the temperature of the air in the bubble remains constant, determine the depth of the diver. Answer in units of m. Determine the absolute pressure at this depth. Answer in units of kPa.
An air bubble originating from an under- water diver has a radius of 8 mm at some depth h. When the bubble reaches the surface of the water, it has a radius of 10.6 mm. The acceleration of gravity is 9.8 m/s². Assuming the temperature of the air in the bubble remains constant, determine the depth of the diver. Answer in units of m. Determine the absolute pressure at this depth. Answer in units of kPa.
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Transcribed Image Text:An air bubble originating from an under-
water diver has a radius of 8 mm at some
depth h. When the bubble reaches the surface
of the water, it has a radius of 10.6 mm. The
acceleration of gravity is 9.8 m/s².
Assuming the temperature of the air in the
bubble remains constant, determine the depth
of the diver.
Answer in units of m.
Determine the absolute pressure at this
depth.
Answer in units of kPa.
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