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Rewriting quadratics in standard form

In [link] , the quadratic was easily solved by factoring. However, there are many quadratics that cannot be factored. We can solve these quadratics by first rewriting them in standard form.

Given a quadratic function, find the x - intercepts by rewriting in standard form .

  1. Substitute a and b into h = b 2 a .
  2. Substitute x = h into the general form of the quadratic function to find k .
  3. Rewrite the quadratic in standard form using h and k .
  4. Solve for when the output of the function will be zero to find the x - intercepts.

Finding the x - Intercepts of a parabola

Find the x - intercepts of the quadratic function f ( x ) = 2 x 2 + 4 x 4.

We begin by solving for when the output will be zero.

0 = 2 x 2 + 4 x 4

Because the quadratic is not easily factorable in this case, we solve for the intercepts by first rewriting the quadratic in standard form.

f ( x ) = a ( x h ) 2 + k

We know that a = 2. Then we solve for h and k .

h = b 2 a k = f ( 1 )    = 4 2 ( 2 )    = 2 ( 1 ) 2 + 4 ( 1 ) 4    = −1    = −6

So now we can rewrite in standard form.

f ( x ) = 2 ( x + 1 ) 2 6

We can now solve for when the output will be zero.

0 = 2 ( x + 1 ) 2 6 6 = 2 ( x + 1 ) 2 3 = ( x + 1 ) 2 x + 1 = ± 3 x = 1 ± 3

The graph has x - intercepts at ( −1 3 , 0 ) and ( −1 + 3 , 0 ) .

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In a separate Try It , we found the standard and general form for the function g ( x ) = 13 + x 2 6 x . Now find the y - and x - intercepts (if any).

y -intercept at (0, 13), No x - intercepts

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Solving a quadratic equation with the quadratic formula

Solve x 2 + x + 2 = 0.

Let’s begin by writing the quadratic formula: x = b ± b 2 4 a c 2 a .

When applying the quadratic formula , we identify the coefficients a ,   b  and  c . For the equation x 2 + x + 2 = 0 , we have a = 1 ,   b = 1 ,   and   c = 2. Substituting these values into the formula we have:

x = b ± b 2 4 a c 2 a    = 1 ± 1 2 4 1 ( 2 ) 2 1    = 1 ± 1 8 2    = 1 ± 7 2    = 1 ± i 7 2

The solutions to the equation are x = 1 + i 7 2 and x = 1 i 7 2 or x = 1 2 + i 7 2 and x = 1 2 i 7 2 .

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Applying the vertex and x -intercepts of a parabola

A ball is thrown upward from the top of a 40 foot high building at a speed of 80 feet per second. The ball’s height above ground can be modeled by the equation H ( t ) = 16 t 2 + 80 t + 40.

  1. When does the ball reach the maximum height?
  2. What is the maximum height of the ball?
  3. When does the ball hit the ground?
  1. The ball reaches the maximum height at the vertex of the parabola.
    h = 80 2 ( 16 )    = 80 32    = 5 2    = 2.5

    The ball reaches a maximum height after 2.5 seconds.

  2. To find the maximum height, find the y - coordinate of the vertex of the parabola.
    k = H ( b 2 a )    = H ( 2.5 )    = −16 ( 2.5 ) 2 + 80 ( 2.5 ) + 40    = 140

    The ball reaches a maximum height of 140 feet.

  3. To find when the ball hits the ground, we need to determine when the height is zero, H ( t ) = 0.

    We use the quadratic formula.

    t = 80 ± 80 2 4 ( 16 ) ( 40 ) 2 ( 16 )   = 80 ± 8960 32

    Because the square root does not simplify nicely, we can use a calculator to approximate the values of the solutions.

    t = 80 8960 32 5.458 or t = 80 + 8960 32 0.458

    The second answer is outside the reasonable domain of our model, so we conclude the ball will hit the ground after about 5.458 seconds. See [link]

    Graph of a negative parabola where x goes from -1 to 6.
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A rock is thrown upward from the top of a 112-foot high cliff overlooking the ocean at a speed of 96 feet per second. The rock’s height above ocean can be modeled by the equation H ( t ) = 16 t 2 + 96 t + 112.

  1. When does the rock reach the maximum height?
  2. What is the maximum height of the rock?
  3. When does the rock hit the ocean?

  1. 3 seconds
  2. 256 feet
  3. 7 seconds

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Questions & Answers

A golfer on a fairway is 70 m away from the green, which sits below the level of the fairway by 20 m. If the golfer hits the ball at an angle of 40° with an initial speed of 20 m/s, how close to the green does she come?
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2. A sled plus passenger with total mass 50 kg is pulled 20 m across the snow (0.20) at constant velocity by a force directed 25° above the horizontal. Calculate (a) the work of the applied force, (b) the work of friction, and (c) the total work.
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Source:  OpenStax, Precalculus. OpenStax CNX. Jan 19, 2016 Download for free at https://legacy.cnx.org/content/col11667/1.6
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