\(sin \vartheta = \frac{5}{12}\)
\(\vartheta = sin^{-1}(\frac{5}{12})\)
which is approximately 24.6243°
Therefore, the missing angle is 24.6243° which is about 0.429775 radians (all corr. to 6 sig. fig.)
\(\sqrt{x-1}=x\)
\(x-1=x^2\)
\(x^2-x+1=0\)
\(x=\frac{(-1)^2\pm\sqrt{4(1)(1)}}{2(1)}\)<------ Quadratic Equation
\(= \frac{1}{2}\pm\frac{2}{2}\)
x = 3/2 or x=-1/2
There are two solutions.
\(\frac{2x^7}{3}-\frac{16x^6}{6}-\frac{509x^5}{22}-\frac{2875x^4}{22}+\frac{15331x^3}{66}+\frac{19447x^2}{33}-\frac{6618x}{11}-\frac{700}{11}\)
= \(\frac{44x^7}{66}-\frac{176x^6}{66}-\frac{1527x^5}{66}-\frac{8625x^4}{66}+\frac{15331x^3}{66}+\frac{38894x^2}{66}-\frac{39708x}{66}-\frac{4200}{66}\)
= \(\frac{44x^7-176x^6-1527x^5-8625x^4+15331x^3+38894x^2-39708x-4200}{66}\)
\(\sqrt{-32}=\sqrt{-1}\sqrt{2}\sqrt{16}=4i\sqrt{2} \)
OR
\(4\sqrt{2}i\)
= 1/42
What kind of dot plot? Linear? Quadratic?
Also we'll need the function to plot graphs
Btw you can use the plotting calculator.
LOL
1) 4.5 x 2.25 = 10.125
2) 0.5 x 10 x (25+12) = 185
3) 0.5 x 16 x (24+32)28*16 = 448
5.78 x 10^8
It's NOT equal to 1/8 ........It equals to 0.1250000000000659. Notice the 659 at the last
