Chapter 10.8, Problem 18E

To determine

To find: the solutions algebraically for the system of equations and then verify the answer by graphing each system. Round to the nearest tenth.

Answer to Problem 18E

  $\left(-1.3,\pm 2.0\right)\text{ and }\left(1.3,\pm 2.0\right)$

Explanation of Solution

Given information:

  $3x^2=9-y^2$..........(1)

  $x^2+2y^2=10$..........(2)

Calculation:

Solve equation (1) as follows:

  $\begin{array}{c}3x^2=9-y^2\\ 3x^2+y^2=9\left[\text{Add each side by }{y}^2\right]\\ y^2\text{=}-3x^2+9\left[\text{Subtract 3}{x}^2\text{ from each side}\right]\mathrm{...}\left(3\right)\end{array}$

Substitute the value of $y^2$ in equation (2) and solve $x$ as follows:

  $\begin{array}{c}{x}^2+2\left(-3x^2+9\right)=10\\ x^2-6x^2+18=10\\ -5x^2+18=10\\ -5x^2=-8\\ x^2=1.6\\ x=\pm 1.3\end{array}$

Substitute each value of $x$ in equation (3) and solve $y$ as shown below.

  $\begin{array}{c}{y}^2\text{=}-3x^2+9\\ y=\pm \sqrt{-3x^2+9}\\ y=\pm \sqrt{-3{\left(1.3\right)}^2+9}\left[\text{For }x=1.3\right]\\ =\pm \sqrt{3.93}\\ =\pm 1.98\\ \approx \pm 2.0\\ y=\pm \sqrt{-3{\left(-1.3\right)}^2+9}\left[\text{For }x=-1.3\right]\\ =\pm \sqrt{3.93}\\ =\pm 1.98\\ \approx \pm 2.0\end{array}$

Thus, the solutions $\left(x,y\right)$ are $\left(-1.3,\pm 2.0\right)\text{ and }\left(1.3,\pm 2.0\right)$ .

Now use graphing calculator to plot equation (1) and (2) on same screen as shown below.

  

The solution $\left(x,y\right)$ obtained from the graph i.e. $\left(-1.265,\pm 2.049\right)\text{ and }\left(1.265,\pm 2.049\right)$ which are same as the calculated solutions after rounding off to the nearest tenth. Thus, the solutions are verified.