Determine acceleration on slope using coefficient of static friction

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Homework Help Overview

The problem involves a sports car accelerating up and down a hill with a given angle and coefficient of static friction. Participants are exploring the dynamics of forces acting on the car, including friction and gravitational components.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • Participants discuss setting up free body diagrams and equations of motion. There are questions about the necessity of the car's mass and whether the car is at constant velocity. Some participants express uncertainty about their calculations and seek clarification on their approach.

Discussion Status

There is ongoing discussion about the setup of equations and the interpretation of forces. Some participants have provided guidance on the relevance of mass in the calculations, while others are questioning their numerical results and the mode of their calculators.

Contextual Notes

Participants note that the problem does not provide the weight of the car, which may affect their calculations. There is also mention of ensuring the calculator is set to the correct mode for angle measurements.

linzeluv
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THE PROBLEM:
A sports car is accelerating up a hill that rises 21.2 ° above the horizontal. The coefficient of static friction between the wheels and the road is μs = 0.880. It is the static frictional force that propels the car forward. (a) What is the magnitude of the maximum acceleration that the car can have? (b) What is the magnitude of the maximum acceleration if the car is being driven down the hill?


I set up my fbd with the static frictional force acting in the -x direction, the normal force acting perpedicular to the inclined plane, and the weight acting in the -y direction. Without knowing the weight of the car or if it is at a constant velocity, I'm not sure how to go about setting up this problem.
 
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Welcome to PF linzeluv,

I think you'll find the in the end you don't need the mass of the car, it'll just cancel out in your calculations.

Secondly, you already know that it isn't traveling at a constant velocity because it's accelerating!
 
Setting up the equation

I thought this would be on the right track, but my answer for part A still isn't right:

Maximum Acceleration = Net Force in X-direction/ mass = -mg sin 21.2deg + maximum static frictional force/ mass

Maximum static frictional force = coefficient of static friction * Normal Force

Net Force in y-direction = ma = 0

Net Force in y-direction = Normal Force - mg cos 21.2deg = 0
Normal Force = mg cos 21.2deg

Final Equation

Maximum acceleration = -mg sin 21.2deg + .880 (mg cos 21.2deg)/ mass

Mass cancels out and answer is 11.6 m/s^2

Not sure where I'm going wrong.
 
linzeluv said:
I thought this would be on the right track, but my answer for part A still isn't right:

Maximum Acceleration = Net Force in X-direction/ mass = -mg sin 21.2deg + maximum static frictional force/ mass

Maximum static frictional force = coefficient of static friction * Normal Force

Net Force in y-direction = ma = 0

Net Force in y-direction = Normal Force - mg cos 21.2deg = 0
Normal Force = mg cos 21.2deg

Final Equation

Maximum acceleration = -mg sin 21.2deg + .880 (mg cos 21.2deg)/ mass

Mass cancels out and answer is 11.6 m/s^2

Not sure where I'm going wrong.
All your working and your final equation is correct, but your final answer is wrong. You must have punched the numbers into your calculator incorrectly.
 
make sure your calculator is in degrees mode not radians, I fell foul of that several times :-)
 

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