To find the value of \( e \) in the context provided, we will assume that you are asking for something like finding a relationship between the angles \( 36^\circ \) and \( (4e)^\circ \).
To solve for \( e \), let's assume that the angles sum up to \( 180^\circ \), which is common in geometry, particularly in triangles:
\[ 36^\circ + (4e)^\circ = 180^\circ \]
Now, we can solve for \( e \):
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Subtract \( 36^\circ \) from both sides: \[ (4e)^\circ = 180^\circ - 36^\circ \]
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Calculate the right side: \[ (4e)^\circ = 144^\circ \]
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Now, divide both sides by 4 to find \( e \): \[ e = \frac{144^\circ}{4} = 36^\circ \]
Thus, \( e \) is equal to \( 36^\circ \).
If there is a different context or relationship to consider, please provide more details!