Calculating Centrifugal Force of a Car on a Curved Road

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Homework Help Overview

The discussion revolves around calculating the centrifugal force acting on a car navigating a curved road, with specific focus on the forces involved, including gravitational and centripetal forces.

Discussion Character

  • Mixed

Approaches and Questions Raised

  • Participants discuss the calculations of gravitational and centripetal forces, with one participant questioning their own approach and seeking clarification on the results. Others provide their own calculations and interpretations of the forces at play.

Discussion Status

There are various calculations presented, with some participants expressing confidence in their results while others seek further clarification. The discussion reflects a mix of agreement and differing interpretations of the calculations involved.

Contextual Notes

Participants note the requirement to use a specific value for gravity (9.8) and round off results, which may influence their calculations and interpretations.

Ry122
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http://users.on.net/~rohanlal/cent.jpg

my attempt:
The car becomes lighter as it passes over the arc therefore its going to exert a force on the road that is less than its normal force.
f=mv^2/r
f=1710(16.6)^2/38.5 = 12239.15844
9.8 x 1710 = 16758
16758-12239.15844
this is incorrect, what am i doing wrong?
 
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Looks okay to me. I got 4536 N using g = 9.81.
 
As a matter of fact let me do the math for you here.(I've no idea if my expression is clear or not because English is not my mother tongue.)
The gravity exerted on the car is :
G=mg=16758N
And the Centripetal force needed is:
f=mv^2/R=12239.15844N
As the forces exerted on the car is the Centripetal force if we take the ground as the reference frame
so
N+f=G
N=4518.84156N
This is right the force the road exert on the car...if I'm asked to solve it.
I don't see any problems unless it's a problem of relativity or Quantunm Mechanics...
 
it says to use 9.8 for gravity and round off to the nearest tenth. What would it be then?
 
Simply 9.8? :-p
 
Ry122 said:
it says to use 9.8 for gravity and round off to the nearest tenth. What would it be then?

That's exactly what I did.
I don't see anything wrong.
 

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