Proving a Fraction Inequality of Sin and Cos | $\pi/2$

lfdahl · Jul 31, 2017

If $x_1,x_2,...,x_{10} \in [0;\frac{\pi}{2}]$ and $\sum_{i=1}^{10}\sin^2x_i = 1.$

- then prove, that:

\[ \frac{\sum_{i=1}^{10}\cos x_i}{\sum_{j=1}^{10}\sin x_j} \ge 3\]

Albert1 · Aug 1, 2017

lfdahl said:

If $x_1,x_2,...,x_{10} \in [0;\frac{\pi}{2}]$ and $\sum_{i=1}^{10}\sin^2x_i = 1.$

- then prove, that:

\[ \frac{\sum_{i=1}^{10}\cos x_i}{\sum_{j=1}^{10}\sin x_j} \ge 3\]

my solution:

let $p=\sum_{i=1}^{10}\cos x_i=(cos\,{x_1}+----+\cos\,{x_{10}})$

$q=\sum_{i=1}^{10}\sin x_i=(sin\,{x_1}+----+\sin\,{x_{10}})$
so $1\leq q^2\leq 3 ---(1) $ from $---(2)$
for $x_1,x_2,...,x_{10} \in [0;\frac{\pi}{2}]$ and $\sum_{i=1}^{10}\sin^2x_i = 1.---(2)$
we have :$p\geq \sum_{i=1}^{10}\cos^2x_i = 9.$
so $ \dfrac {p}{q}\geq \dfrac{9}{q^2}---(3)$
from (1)(2)(3) we have :$\dfrac {p}{q}\geq 3$

lfdahl · Aug 1, 2017

Albert said:

my solution:

let $p=\sum_{i=1}^{10}\cos x_i=(cos\,{x_1}+----+\cos\,{x_{10}})$

$q=\sum_{i=1}^{10}\sin x_i=(sin\,{x_1}+----+\sin\,{x_{10}})$
so $1\leq q^2\leq 3 ---(1) $ from $---(2)$
for $x_1,x_2,...,x_{10} \in [0;\frac{\pi}{2}]$ and $\sum_{i=1}^{10}\sin^2x_i = 1.---(2)$
we have :$p\geq \sum_{i=1}^{10}\cos^2x_i = 9.$
so $ \dfrac {p}{q}\geq \dfrac{9}{q^2}---(3)$
from (1)(2)(3) we have :$\dfrac {p}{q}\geq 3$

Very well done, Albert! Thankyou for your nice solution!

lfdahl · Aug 3, 2017

An alternative solution:

View attachment 7033

Proving a Fraction Inequality of Sin and Cos | $\pi/2$

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