Asianet rotates on an axis through its poles and 1 revolution takes 1 day (1 day is 22 hours). The distance from the axis to a location on the planet 30 north latitudes hoout 3332.5 miles. Therefore, a location on the planet at 30° north latitude is spinning on a circle of radius 3332.5 miles Compute the linear speed on the surface of the net at 30 north latitude D The near speed on the surface of the planet ismies hour Round the final answer to the nearest integer as needed. Round all intermediate values to five decimal places as needed)
Asianet rotates on an axis through its poles and 1 revolution takes 1 day (1 day is 22 hours). The distance from the axis to a location on the planet 30 north latitudes hoout 3332.5 miles. Therefore, a location on the planet at 30° north latitude is spinning on a circle of radius 3332.5 miles Compute the linear speed on the surface of the net at 30 north latitude D The near speed on the surface of the planet ismies hour Round the final answer to the nearest integer as needed. Round all intermediate values to five decimal places as needed)
Related questions
Question
Transcribed Image Text:ist
40
141
K-
Apianet rotates on an axis through its poles and 1 revolution takes 1 day (1 day is 22 hours). The distance from the axis to a location on the planet 30 northlaudes
hoout 3332.5 miles. Therefore, a location on the planet at 30 north latitude is spinning on a circle of radius 3332.5 miles. Compute the linear speed on the surface of the
planet at 30 north latitude
The near speed on the surface of the planet ismiles/hour
(Round the final answer to the nearest integer as needed. Round all intermediate values to five decimal places as needed.)
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 2 steps
