Finding Limit of Angle Theta in Unit Cube in R^n

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In summary, the angle \theta between the diagonal of a unit cube in R^{n} and one of its axes can be found by considering the dot product of the edge vector (1,0,0) and the diagonal vector (1,1,1). By solving for \theta in terms of n using the dot product definition, we can find the limit of \theta as n approaches infinity by using large numbers.
  • #1
mrs.malfoy
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Let [tex]\theta[/tex] be the angle between the diagonal of the unit cube in [tex]R^{n}[/tex] and one of its axes.

Find

lim [tex]\theta[/tex] (n)
[tex]_{n\rightarrow\infty}[/tex]
 
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  • #2
You can represent an edge as a unit vector along the x-axis, (1,0,0), and the diagonal as the vector (1,1,1). Consider the definition of the dot product

[tex]\mathbf{a} \cdot \mathbf{b}= a_{1}b_{1}+a_{2}b_{2}+...+a_{n}b_{n} = \left \| a \right \| \left \| b \right \| cos \; \theta[/tex]

Since we know a = (1,0,0,...) and b = (1,1,1,...), we can solve for [itex]\theta[/itex] in terms of n. To find the limit as n approaches infinity, just try it out with very big numbers.
 

1. What is the unit cube in R^n?

The unit cube in R^n is a geometric figure in n-dimensional space that has all of its sides equal to 1 unit. It can be visualized as a cube with sides of length 1, but in higher dimensions, it may not have a physical representation.

2. What is the limit of angle theta in the unit cube in R^n?

The limit of angle theta in the unit cube in R^n is the maximum angle that can be formed by any two edges or sides of the cube. This limit is dependent on the number of dimensions, with higher dimensions allowing for larger maximum angles.

3. How is the limit of angle theta in the unit cube in R^n calculated?

The limit of angle theta in the unit cube in R^n can be calculated by using the dot product formula: cos(theta) = (a.b)/(|a||b|), where a and b are two non-parallel edges or sides of the cube. The limit is then equal to the inverse cosine of this value.

4. Why is finding the limit of angle theta in the unit cube in R^n important?

The limit of angle theta in the unit cube in R^n is important in various mathematical applications, such as optimization problems, geometric proofs, and computer graphics. It helps to determine the maximum possible angle between two vectors in n-dimensional space, which can have practical implications in different fields.

5. Is there a general formula for finding the limit of angle theta in the unit cube in R^n?

Yes, there is a general formula for finding the limit of angle theta in the unit cube in R^n. This formula is cos(theta) = (n-2)/n, where n is the number of dimensions. For example, in 3-dimensional space, the limit of angle theta is cos(theta) = 1/3, which is equivalent to theta = 70.53 degrees.

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