he boy in the figure here is initially seated on the top of a hemispherical ice mound of radius R = 13.5 m. He begins to slide down th ce, with a negligible initial speed. Approximate the ice as being frictionless. At what height does the boy lose contact with the ice?
he boy in the figure here is initially seated on the top of a hemispherical ice mound of radius R = 13.5 m. He begins to slide down th ce, with a negligible initial speed. Approximate the ice as being frictionless. At what height does the boy lose contact with the ice?
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![The boy in the figure here is initially seated on the top of a hemispherical ice mound of radius R = 13.5 m. He begins to slide down the
ice, with a negligible initial speed. Approximate the ice as being frictionless. At what height does the boy lose contact with the ice?
R
Number
Unit
>](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd9359340-e7e1-4dc2-98b4-69434f90ef60%2Fe084b4c6-28c6-4dd2-bb3a-ed4ad8df432e%2Fv4k9ru7_processed.png&w=3840&q=75)
Transcribed Image Text:The boy in the figure here is initially seated on the top of a hemispherical ice mound of radius R = 13.5 m. He begins to slide down the
ice, with a negligible initial speed. Approximate the ice as being frictionless. At what height does the boy lose contact with the ice?
R
Number
Unit
>
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