Solve Friction Problem: Find Car Mass and Normal Force

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The discussion revolves around calculating the mass of a car and the normal force acting on it while descending a slope. Given a net force of -2.00 x 10^4 N and a coefficient of kinetic friction of 0.797, the user seeks guidance on the necessary equations and steps to solve the problem. Participants emphasize the importance of drawing a free body diagram and resolving forces into x and y components relative to the incline. The user acknowledges understanding the approach after receiving assistance. The conversation highlights the need for foundational knowledge in friction-related physics problems.
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Hi, I got stuck on this and need help...

The most massive car ever build was the official car of the General Secretary of the COmmunitst party in the former Soviet Union. Suppose this car is moving down a 10.0º slope when the driver suddenly applies the brakes. The net force acting on the car as it stops is -2.00 x 10^4 N. If the coefficient of kinetic friction between the car's tires and the pavement is 0.797, what is the car's mass? What is the magnitude of the normal force that the pavement exerts on the car?

So, the given info are:
theta = 10 degrees
force, applied = -2.00 x 10^4 N
and mew k = 0.797
gravity = 9.81 m/s^2

Is that right? Now this is where I'm stuck.. I'm not sure what I need to find first and the equations to use to find it...

Please help... thank you!
 
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Draw an free body diagram remembering the fact that the normal force will be applied normal to the surface. Have you solved any sliding questions before using friction?
 
Yes, I've drawn a free body diagram, but I'm not sure how to solve it now.

I have not solved questions using friction before.

Do I need to find the x and y components and go from there?
 
Yes, you need to resolve components so that they are all either parallel or perpendicular to the inclined plane.
 
Alright, I've gotten it. Thank you, everyone.
 

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