Banked Curve Problem: Find Radius with Friction Coefficients

AI Thread Summary
The discussion revolves around calculating the radius of a banked curve for a car approaching at a minimum speed of 20 m/s, with a mass of 1000 kg and given friction coefficients. Participants express confusion about setting up the equations, acknowledging the roles of static and kinetic friction, as well as gravitational forces. The problem is approached using both centripetal and centrifugal force perspectives, with a preference for the latter to visualize forces acting on the car. Key insights include the need to balance the forces at minimum and maximum speeds to prevent sliding, highlighting that kinetic friction only becomes relevant when the car begins to slip. Understanding the interaction of these forces is crucial for solving the problem effectively.
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Homework Statement



A car approaches a curve that is banked at 20 degrees. The minimum speed for the curve is 20 m/s. The car's mass is 1000 kg. What is the radius of the curve if the coefficient of kinetic friction is 0.5 and the coefficient of static friction is 1.0?


Homework Equations



I really don't know how to set up an equation for this problem. I understand that there are three forces acting upon the car, static friction, kinetic friction and force of gravity.


The Attempt at a Solution



I understand that the coefficients both are interpreted to be:

(vector)fk = u(k)N
(vector)fs = u(s)N
(vector)Fg = mg
 
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There are a couple of ways of looking at a banked curve problem, one using centripetal force and one using centrifugal force. I prefer the latter. Sketch your car on the slope and show the centrifugal force horizontally and outward. Gravity downward. Write expressions for the components of each that are parallel to the slope and straight into the slope. Then you can calculate the friction force.
 
Delphi51 said:
There are a couple of ways of looking at a banked curve problem, one using centripetal force and one using centrifugal force. I prefer the latter. Sketch your car on the slope and show the centrifugal force horizontally and outward. Gravity downward. Write expressions for the components of each that are parallel to the slope and straight into the slope. Then you can calculate the friction force.

I graphed everything out and fully understand where all the friction forces are. I'm still confused on how to interpret the coefficients in with a working mathematical equation.
 
At the "minimum speed" the parallel component of centrifugal force + friction just prevent the parallel gravity component from making the car slide down the slope.
At the "maximum speed" gravity + friction just prevent the centrifugal force from making the car slide up the slope.

The kinetic friction only comes into play when the car starts to slip. And it is less than the static friction so once it starts to slip, it will slip right off the road.
 

Thread 'Rolling without slipping on a curved surface'

Kindly see the attached pdf. My attempt to solve it, is in it. I'm wondering if my solution is right. My idea is this: At any point of time, the ball may be assumed to be at an incline which is at an angle of θ(kindly see both the pics in the pdf file). The value of θ will continuously change and so will the value of friction. I'm not able to figure out, why my solution is wrong, if it is wrong .
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Thread 'Struggling to understand the concept of this question (ice cube in water optics question)'

TL;DR Summary: I came across this question from a Sri Lankan A-level textbook. Question - An ice cube with a length of 10 cm is immersed in water at 0 °C. An observer observes the ice cube from the water, and it seems to be 7.75 cm long. If the refractive index of water is 4/3, find the height of the ice cube immersed in the water. I could not understand how the apparent height of the ice cube in the water depends on the height of the ice cube immersed in the water. Does anyone have an...
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