Coefficient of Kinetic friction

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Homework Help Overview

The problem involves determining the coefficient of kinetic friction for a box sliding down a ramp inclined at 30 degrees, with an acceleration of 1.2 m/s². The challenge arises from the need to solve the problem without knowing the mass of the box.

Discussion Character

  • Exploratory, Assumption checking

Approaches and Questions Raised

  • Participants discuss the necessity of mass in the equations and explore the idea that mass may not be needed to find the coefficient of kinetic friction. There are suggestions to express equations symbolically rather than numerically.

Discussion Status

Some participants have provided guidance on focusing on symbolic representation in the equations, indicating that mass can be eliminated from the calculations. There is an ongoing exploration of how to approach the problem without numerical values.

Contextual Notes

Participants note that the original poster has not fully articulated the problem initially, which has led to requests for clarification and more context regarding their thought process.

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Ok, in this problem, I am given theta, which in 30 degrees, and acceleration, which is 1.2 m/s^2. How do I solve for the coefficient of Kinetic friction without the mass? :confused:
 
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You have not described what the problem is about...so it's hard to help really. Can you write down the question as you have it ? And in addition, post whatever thoughts/ideas you have.

We can't help you unless you show that you've made an effort.
 
The problem is: A box slides down a 30 degree ramp with an acceleration of 1.2 ms/^2. Determine the coefficient of kinetic friction between the box and the ramp. I have tried to solve the problem without the mass, but the formulas that I have all involve mass, or the forces. I don't know how to solve the problem with the variables that I am given for either of them.
 
The mass doesn't matter.

Don't try to calculate numerical values for each individual step. You must either leave all of your equations in terms of m and you will find that mass drops out of your equation for Newton's Second Law, or you must make up a value of m and trust me that mass doesn't matter. Honestly, I wouldn't trust me if I were you.

--J
 
As Justin Said

Dont worry about the numbers. Solve with only symbols first. Its a lot easier to solve and you can quicklly simplify it. After you think you've solved it go back and check your units (for this one all the units should cancel). Also, in future endevors (larger more complex problems) your life will be a lot easier when it comes to finding mistakes/errors.

-Burg
 

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