You want to design an oval racetrack such that 3200 lb racecars can round the tu

Question

You want to design an oval racetrack such that 3200 lb racecars can round the turns of radius 1000 ft at 101 mi/h without the aid of friction. You estimate that                when elements like downforce and grip in the tires are considered the cars will round the turns at a maximum of 175 mi/h. Find the banking angle necessary for the                racecars to navigate these turns at 101 mi/h and without the aid of friction or other forces. This banking and radius are very close to the actual turn data at                Daytona International Speedway where 3200 lb stock cars travel around the turns at about 175 mi/h. What additional radial force is necessary to hold the racecar on                the track at 175 mi/h?

Explanation / Answer

as we knoe dat tan theta = v^2/ rg

v = 101* 0.4470 = 45.14 m/sec

r = 304.8 metre

tan theta = (45.14)^2/304.8*9.8 = 0.68

theta = tan inverse (0.682) = 34.29 degree

in case of banking net force ll be

we need to convert lb to kg

so

mass = 3200/2.205 = 1451.25 kg

Net Force = mv^2/r

= 1451.25/304.8 {78.225^2 - 45.14^2}

= 19433.47 N

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