How to Calculate the Inclination Angle of a Plane from Acceleration?

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Homework Help Overview

The problem involves calculating the angle of inclination of a plane from the acceleration of a crate sliding down without friction. The crate reaches a speed of 5.832 m/s after sliding a distance of 2.29 m, and the original poster is attempting to relate the calculated acceleration to the angle of inclination.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • The original poster sets up a free body diagram and calculates the acceleration but is uncertain about how to relate this to the angle of inclination. Participants suggest considering the forces acting on the crate and using trigonometric relationships to find the angle.

Discussion Status

Participants are exploring different interpretations of the problem, particularly regarding the relationship between the acceleration and the angle of inclination. Some guidance has been offered regarding the use of trigonometric functions and the components of gravitational force, but there is no explicit consensus on the correct angle.

Contextual Notes

The problem does not provide the mass of the crate, which has led to questions about whether the angle can be determined without this information. The original poster is focused on deriving the angle solely from the known acceleration.

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Question:
A crate of oranges slides down an inclined plane without friction. If it is released from rest and reaches a speed of 5.832 m/s after sliding a distance of 2.29m, what is the angle of inclination of the plane with respect to the horizontal?


I first set up a free body diagram then I discovered that finding the acceleration in the x direction would be the best idea.

I have the question down to a=7.42 m/s^2 which is correct for the acceleration, but I am getting stuck on where to go next. The formula I used is:

v^2= Vi^2+2a(x-xi) and that gave me the 7.42 m/s^2. The book says the angle is 41 degrees, but I don't know how to take the acceleration and determine the angle just from the acceleration. Anyone have some pointers?
 
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Think: What forces act on the crate? What force accelerates the crate down the slope?

ehild
 
Thenacceleration along the slope is a component of g acting at an angle... that should help. I recommend drawing a nice big diagram of the situation with forces on it and looking for a nice right angled trianlge...
 
I did this but the problem never gave a mass. The angle is my desired result. Gravity is acting on the y direction F=mg. So I found acceleration in the x direction so...can I find the angle with the acceleration known even if the mass is not given?
 
You have 2 sides to a triangle - g of 9.81 in a vertical sense, and the component along the slope you calculated earlier. Could some trig be applied here?
 
tarheels88 said:
I did this but the problem never gave a mass. The angle is my desired result. Gravity is acting on the y direction F=mg. So I found acceleration in the x direction so...can I find the angle with the acceleration known even if the mass is not given?

Of course you can. You got a, the acceleration in the x direction. That corresponds to a force F=ma along the slope, red arrow in the picture, and that force is the parallel component of gravity (G, in blue). The arrows make a right triangle (yellow) with an angle α, equal to the inclination angle of the slope. You need only remember the definition of sine, cosine, tangent...

ehild
 

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tarheels88 said:
The book says the angle is 41 degrees

I get the angle as 49.3 degrees to 3 s.f. Correct?
 
Possibly you have found the wrong the angle in the triangle there...
 
lfcprg said:
I get the angle as 49.3 degrees to 3 s.f. Correct?

It has to be correct. The acceleration along the slope due to gravity is gsin(α). The acceleration is 7.426 ms-2, that corresponds to 49.2°, instead of 41.

ehild
 

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