An engineer wants to design an oval racetrack such that 3.20 × 10³ lb racecars can round the exactly 1000 ft radius turns at 1.00 × 10² 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 1.00 × 10² mi/h without the aid of friction. 0 = What additional radial force F, is necessary to prevent a race car from drifting on the curve at 175 mi/h? This banking and radius are very close to the actual turn data at Daytona International Speedway, where 3.20 x 10³ lb stock cars travel around the turns at about 175 mi/h. 0 Fr= N

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An engineer wants to design an oval racetrack such that
3.20 × 10³ lb racecars can round the exactly 1000 ft radius
turns at 1.00 x 102 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 1.00 × 10² mi/h without the aid of
friction.
0 =
What additional radial force F, is necessary to prevent a race
car from drifting on the curve at 175 mi/h?
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.
0
Fr=
N
Transcribed Image Text:An engineer wants to design an oval racetrack such that 3.20 × 10³ lb racecars can round the exactly 1000 ft radius turns at 1.00 x 102 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 1.00 × 10² mi/h without the aid of friction. 0 = What additional radial force F, is necessary to prevent a race car from drifting on the curve at 175 mi/h? 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. 0 Fr= N
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