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Calculate the points of intersection for the line y = -3x - 4 and the curvey = -3x2- 5x + 2.

User Leosz
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1 Answer

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Given the line


y=-3x-4,

and the curve


y=-3x^2-5x+2,

in order to find the point at which they intersect, we must consider the equation:


-3x-4=-3x^2-5x+2.

Since this is a quadratic equation, let's move everything to the left side so that it equals 0. In other words, let's add 3x², 5x and subtract 2 from both sides:


-3x-4+3x^2+5x-2=0,
3x^2+2x-6=0.

Let's solve this equation using the general formula for quadratic equations:


x=\frac{-2\pm\sqrt[]{4-4(3)(-6)}}{2(3)},
x=\frac{-2\pm\sqrt[]{4+72}}{6},
x=\frac{-2\pm\sqrt[]{76}}{6},
x=\frac{-2\pm2\cdot\sqrt[]{19}}{6}\text{.}

This gives us the following two values of x:


x=-(1)/(3)+(1)/(3)\cdot\sqrt[]{19},

and


x=-(1)/(3)-(1)/(3)\cdot\sqrt[]{19}.

Now we know the x-coordinate of the points of intersection. In order to get the y-coordinate, we substitute these values on either of the equations we were given to begin with. We'll do it on the line since it's easier:

On one hand:


y=-3(-(1)/(3)+(1)/(3)\cdot\sqrt[]{19})-4=1-\sqrt[]{19}-4=-3-\sqrt[]{19},

on the other:


y=-3(-(1)/(3)-(1)/(3)\cdot\sqrt[]{19})-4=1+\sqrt[]{19}-4=-3+\sqrt[]{19}.

So the points of intersection are


(-(1)/(3)+(1)/(3)\cdot\sqrt[]{19},-3-\sqrt[]{19}),

and


(-(1)/(3)-(1)/(3)\cdot\sqrt[]{19},-3+\sqrt[]{19}).

In the image, we can see the approximate values of these coordinates.

Calculate the points of intersection for the line y = -3x - 4 and the curvey = -3x-example-1
User Likebike
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