Solving Banked Road Problem with Car Speeds of 48 km/h

  • Thread starter Thread starter Bernie Hunt
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AI Thread Summary
A car can navigate a banked curve with a radius of 30m at a speed of 48 km/h on a frictionless road, requiring a specific banking angle for optimal performance. The initial calculation for the banking angle resulted in an incorrect value of 82.7 degrees due to a units conversion error, as the speed must be converted to meters per second. The correct banking angle, as referenced in a textbook, is 31 degrees. Additionally, another user is struggling with understanding the forces acting on a car on a banked track, specifically the relationship between normal force and gravitational force. Accurate unit conversion and a clear understanding of force dynamics are crucial for solving these physics problems effectively.
Bernie Hunt
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OK, last time I'll bother you guys today. I'm just having a tough time getting things to work out.

A curve of radius 30m is banked so that a car can round the curve at 48km/h even if the road is frictionless. Calculate the banking angle theta for these conditions.

I have;

tan(theta) = v^2 / gr

tan(theta) = 48^2 / (9.8 * 30)

tan(theta) = 7.8367

theta = 82.7 deg

The book has 31 deg.

Any ideas?

Thanks,
Bernie
 
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48km/h is a dangerous thing to plug into an equation like that. As a habbit always plug the units in with their numbers
 
You will have to convert 48 km/h to m/s. Or, convert 30m to km and 9.8 m/s^2 to km/hr^2.
 
Argh, Thud, thud, thud ...
(The sound of beating my head on the desk again.(

That's the second time I made a units mistake last night. My montra for today will be "Check the units!"

Bernie
 
Help!

Okay, so I am doing a similar problem involving a car driving on a banked, circular track (theta=31degrees). I know that to find the centripetal acceleration, I am supposed to say that (mv^2)/r = nsin(theta). Then, I have to solve for n by saying that ncos(theta)=mg. However, I am confused... why can't n=mgcos(theta). My understanding is that two forces are equal in magnitude if the object doesn't move in either direction. The car doesn't move into the road or out of the road... or does it?? please help! I have a test on monday.
 
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