Math, asked by BrainIyBeast, 4 months ago

Answer this plzzz!!

If sec 3 theta = √2, Find tan(90° - 2 theta)
2)The sums of squares of two consecutive positive odd numbers is 290. Find the number.

Answers

Answered by SweetCharm
1

\huge\bold{\underline{Question\:1:}}

If sec 3 theta = √2, Find tan(90° - 2 theta)

\huge\bold{\underline{Answer:}}

\green\bigstar Given:

sec 3 theta = √2

\blue\bigstar To find:

Find tan(90° - 2 theta)

\purple\bigstar Solution:

⟹ sec 3θ = √2

⟹ sec 3θ = sec 45° [sec 45° = √2]

⟹ 3θ = 45°

\boxed{\bf{\pink{θ = 15°}}}

Now,

tan(90° - 2θ)

= cot 2θ

= cot 2 × 15° [ θ = 15°]

= cot 30°

= √3

Therefore, the value of tan(90°-2θ) = √3

\red\bigstar Additional information:

T-RATIOS:

\begin{gathered}\begin{gathered}\begin{gathered}\boxed{\boxed{\begin{array}{ |c |c|c|c|c|c|} \bf\angle A & \bf{0}^{ \circ} & \bf{30}^{ \circ} & \bf{45}^{ \circ} & \bf{60}^{ \circ} & \bf{90}^{ \circ} \\ \\ \rm sin A & 0 & \dfrac{1}{2}& \dfrac{1}{ \sqrt{2} } & \dfrac{ \sqrt{3} }{2} &1 \\ \\ \rm cos \: A & 1 & \dfrac{ \sqrt{3} }{2}& \dfrac{1}{ \sqrt{2} } & \dfrac{1}{2} &0 \\ \\ \rm tan A & 0 & \dfrac{1}{ \sqrt{3} }& 1 & \sqrt{3} & \rm Not \: De fined \\ \\ \rm cosec A & \rm Not \: De fined & 2& \sqrt{2} & \dfrac{2}{ \sqrt{3} } &1 \\ \\ \rm sec A & 1 & \dfrac{2}{ \sqrt{3} }& \sqrt{2} & 2 & \rm Not \: De fined \\ \\ \rm cot A & \rm Not \: De fined & \sqrt{3} & 1 & \dfrac{1}{ \sqrt{3} } & 0 \end{array}}}\end{gathered}\end{gathered}\end{gathered}

___________________________

\huge\bold{\underline{Question\:2:}}

The sums of squares of two consecutive positive odd numbers is 290. Find the number.

\huge\bold{\underline{Answer:}}

\green\bigstar Given:

The sums of squares of two consecutive positive odd numbers is 290

\blue\bigstar To find:

Find the number.

\purple\bigstar Solution:

Let the two consecutive number be x and (x+2)

According to question, we have

\sf{:\implies x²+(x+2)²=290}

\sf{:\implies 2x²+4x+4=290}

\sf{:\implies 2x²+4x=290-4}

\sf{:\implies 2x²+4x=286}

\sf{:\implies 2(x²+2x)=286}

\sf{:\implies x²+2x=143}

\sf{:\implies x²+2x-143=0}

\sf{:\implies x²+13x-11x-143=0}

\sf{:\implies x(x+13)-11(x+13)=0}

\sf{:\implies (x+13)(x-11)=0}

\sf{:\implies x=-13}

or,

\boxed{\bf{\pink{⟹\:x=11}}}

Since the number is positive,the number is x = 11

.°. x + 2 = 11 + 2 = 13

Therefore,

sum of numbers is = ( 11 + 13 ) = 24

Therefore, the number is 24

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