© Macmillan LearningAn engineer wants to design an oval racetrack such that3.20 × 10³ lb racecars can round the exactly 1000 ft radiusturns at 103 mi/h without the aid of friction. She estimates thatthe cars will round the turns at a maximum of 175 mi/h.Find the banking angle necessary for the race cars tonavigate the turns at 103 mi/h without the aid of friction.0 =This banking and radius are very close to the actual turn data at Daytona International Speedway, where 3.20 × 10³ lb stock carstravel around the turns at about 175 mi/h. © Macmillan Learningthe cars will round the turns at a maximum of 175 mi/h.Find the banking angle necessary for the race cars tonavigate the turns at 103 mi/h without the aid of friction.0 =This banking and radius are very close to the actual turn data at Daytona International Speedway, where 3.20 × 10³ lb stock carstravel around the turns at about 175 mi/h.What additional radial force F, is necessary to prevent a racecar from drifting on the curve at 175 mi/h?F₁ =N

To Find : The banking angle θ necessary for the race cars to navigate the turns at 103 mi/h without…

An engineer wants to design an oval racetrack such that 3.20 × 10³ lb racecars can round the exactly 1000 ft radius turns at 103 mi/h without the aid of friction. She estimates that the cars will round the turns at a maximum of 175 mi/h. Find the banking angle 0 necessary for the race cars to navigate the turns at 103 mi/h without the aid of friction. A =

An engineer wants to design an oval racetrack such that 3.20 × 10³ lb racecars can round the exactly 1000 ft radius turns at 103 mi/h without the aid of friction. She estimates that the cars will round the turns at a maximum of 175 mi/h. Find the banking angle 0 necessary for the race cars to navigate the turns at 103 mi/h without the aid of friction. A =

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

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Section: Chapter Questions

Problem 1.1MA

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Question

© Macmillan Learning
An engineer wants to design an oval racetrack such that
3.20 × 10³ lb racecars can round the exactly 1000 ft radius
turns at 103 mi/h without the aid of friction. She estimates that
the cars will round the turns at a maximum of 175 mi/h.
Find the banking angle necessary for the race cars to
navigate the turns at 103 mi/h without the aid of friction.
0 =
This banking and radius are very close to the actual turn data at Daytona International Speedway, where 3.20 × 10³ lb stock cars
travel around the turns at about 175 mi/h.

© Macmillan Learning
the cars will round the turns at a maximum of 175 mi/h.
Find the banking angle necessary for the race cars to
navigate the turns at 103 mi/h without the aid of friction.
0 =
This banking and radius are very close to the actual turn data at Daytona International Speedway, where 3.20 × 10³ lb stock cars
travel around the turns at about 175 mi/h.
What additional radial force F, is necessary to prevent a race
car from drifting on the curve at 175 mi/h?
F₁ =
N

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