A triathlete on the swimming leg of a triathlon is 140.0 m from the shore (a). The triathlete's bike is 70.0 m from the shore on the land (b). The component of her distance from the bicycle along the shore line, ( x + y in the diagram), is 199.7 m. Triathlete Water a shoreline У b Land If the triathlete's running speed is 8.05 m/s and swimming speed is 1.610 m/s, calculate the value of x so that the triathlete reaches her bike in the least amount of time. Tries 0/12 Submit Answer Calculate the minimum time required to reach the bicycle.
A triathlete on the swimming leg of a triathlon is 140.0 m from the shore (a). The triathlete's bike is 70.0 m from the shore on the land (b). The component of her distance from the bicycle along the shore line, ( x + y in the diagram), is 199.7 m. Triathlete Water a shoreline У b Land If the triathlete's running speed is 8.05 m/s and swimming speed is 1.610 m/s, calculate the value of x so that the triathlete reaches her bike in the least amount of time. Tries 0/12 Submit Answer Calculate the minimum time required to reach the bicycle.
Related questions
Question
1
Transcribed Image Text:A triathlete on the swimming leg of a triathlon is 140.0 m from the shore (a). The triathlete's bike is 70.0 m from the shore on the land (b). The
component of her distance from the bicycle along the shore line, ( x + y in the diagram), is 199.7 m.
Triathlete
Water
shoreline
y
Land
If the triathlete's running speed is 8.05 m/s and swimming speed is 1.610 m/s, calculate the value of x so that the triathlete reaches her bike in the least
amount of time.
Submit Answer
Tries 0/12
Calculate the minimum time required to reach the bicycle.
Submit Answer
Tries 0/12
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 5 steps
