An air mass at 100% relatively humidity is forced up and over a mountain range. At the peak of the mountain range immediately before it starts to descend down the other side, it reaches a temperature of 2 degrees Celsius. Calculate the temperature of the air mass after it has descended 360 m down the other side of the mountain range.
An air mass at 100% relatively humidity is forced up and over a mountain range. At the peak of the mountain range immediately before it starts to descend down the other side, it reaches a temperature of 2 degrees Celsius. Calculate the temperature of the air mass after it has descended 360 m down the other side of the mountain range.
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![An air mass at 100% relatively
humidity is forced up and over a
mountain range. At the peak of the
mountain range immediately before it
starts to descend down the other
side, it reaches a temperature of 2
degrees Celsius. Calculate the
temperature of the air mass after it
has descended 360 m down the other
side of the mountain range.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F38336ba8-c25e-4577-ac30-cca3a7f9bed6%2Fd140b0c2-c618-4939-bc37-c54a6c15660e%2Ft0j4vx_processed.jpeg&w=3840&q=75)
Transcribed Image Text:An air mass at 100% relatively
humidity is forced up and over a
mountain range. At the peak of the
mountain range immediately before it
starts to descend down the other
side, it reaches a temperature of 2
degrees Celsius. Calculate the
temperature of the air mass after it
has descended 360 m down the other
side of the mountain range.
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