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Let sin\beta =\frac{2\sqrt[]{2} }{5} \\ and (\pi )/(2) \leq\beta \leq \pi \\. Determine the exact value of sin((\beta )/(2) )
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3 votes
Let
sin\beta =\frac{2\sqrt[]{2} }{5} \\ and
(\pi )/(2) \leq\beta \leq \pi \\.

Determine the exact value of
sin((\beta )/(2) )

User Natan Rubinstein
by
6.4k points

1 Answer

2 votes

Since beta is in the first quadrant, the final answer will be positive.

To find cos(beta) so we can use the half angle identity, we can substitute into the Pythagorean identity. Doing so gives us that


\sin( \beta ) = ( √(17) )/(5)

So, this means that


\sin( ( \beta )/(2) ) = \sqrt{ (1 - ( √(17) )/(2) )/(2) } = \sqrt{ (2 - √(17) )/(4) } = \frac{ \sqrt{2 - √(17) } }{2}

Let sin\beta =\frac{2\sqrt[]{2} }{5} \\ and (\pi )/(2) \leq\beta \leq \pi \\. Determine-example-1
User Jason Portnoy
by
5.4k points
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