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== Quadratic equation subject ==

=== Steps ===

''ax''<sup>2</sup> + ''bx'' + ''c'' = 0

4''a''<sup>2</sup>''x''<sup>2</sup> + 4''abx'' + 4''ac'' = 0

4''a''<sup>2</sup>''x''<sup>2</sup> + 4''abx'' = –4''ac''

4''a''<sup>2</sup>''x''<sup>2</sup> + 4''abx'' + ''b''<sup>2</sup> = ''b''<sup>2</sup> – 4''ac''

(2''ax'' + ''b'')<sup>2</sup> = ''b''<sup>2</sup> – 4''ac''

2''ax'' + ''b'' = ±{{sqrt|''b''<sup>2</sup> – 4''ac''}}

2''ax'' = –''b'' ± {{sqrt|''b''<sup>2</sup> – 4''ac''}}

''x'' = {{sfrac|–''b'' ± {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}

=== How to make ''x'' the quadratic equation subject, i.e. derive the quadratic formula ===

* Multiply the left side by 4''a'', as the right side is zero.

* Add –4''ac'' to both sides.

* Add ''b''<sup>2</sup> to both sides to complete the square.

* Square-root both sides.

* Add –''b'' to both sides.

* Divide both sides by 2''a''.

=== How to turn the quadratic equation, written as ''ax''<sup>2</sup> + ''bx'' + ''c'' = 0, into (2''ax'' + ''b'')<sup>2</sup> = ''b''<sup>2</sup> – 4''ac'' ===

* Replace 4''ac'' by ''b''<sup>2</sup> on the left side.

* Keep (''b''<sup>2</sup> – 4''ac'') on the right side.

=== Theory ===

* By square completion, quadratic equations, written as ''ax''<sup>2</sup> + ''bx'' + ''c'' = 0, become (2''ax'' + ''b'')<sup>2</sup> = ''b''<sup>2</sup> – 4''ac''.

* This theory shows that (2''ax'' + ''b'')<sup>2</sup> is on the left side and that (''b''<sup>2</sup> – 4''ac'') is on the right side.

* ''x'' = {{sfrac|–''b'' ± {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}} is the quadratic formula.

=== ''b''<sup>2</sup> – 4''ac'' ===

* (''b''<sup>2</sup> – 4''ac'') is the expression in the quadratic formula that determines how many solutions quadratic equations, written as ''ax''<sup>2</sup> + ''bx'' + ''c'' = 0, have.

* When ''b''<sup>2</sup> – 4''ac'' > 0, there are two solutions.

* When ''b''<sup>2</sup> – 4''ac'' = 0, the only solution is ''x'' = –{{sfrac|''b''|2''a''}}.

* When ''b''<sup>2</sup> – 4''ac'' < 0, there are no solutions.

* When (''b''<sup>2</sup> – 4''ac'') is a perfect square, there are two rational solutions.

* When (''b''<sup>2</sup> – 4''ac'') is not a perfect square, there are two irrational solutions.

== Quadratic expression forms ==

=== Vertex form conversion ===

''ax''<sup>2</sup> + ''bx'' + ''c'' = {{sfrac|(2''ax'' + ''b'')<sup>2</sup> + 4''ac'' – ''b''<sup>2</sup>|4''a''}}

=== Quadratic expression forms ===

* Quadratic expressions, written as (''ax''<sup>2</sup> + ''bx'' + ''c''), become {{sfrac|(2''ax'' + ''b'')<sup>2</sup> + 4''ac'' – ''b''<sup>2</sup>|4''a''}} when converted to their vertex forms.

* Quadratic expressions, written as (''ax''<sup>2</sup> + ''bx'' + ''c''), can be factorized when (''b''<sup>2</sup> – 4''ac'') is a perfect square.

* When ''a'' > 0, quadratic expressions have minimum values, i.e. ''ax''<sup>2</sup> + ''bx'' + ''c'' >= {{sfrac|4''ac'' – ''b''<sup>2</sup>|4''a''}}.

* When ''a'' < 0, quadratic expressions have maximum values, i.e. ''ax''<sup>2</sup> + ''bx'' + ''c'' <= {{sfrac|4''ac'' – ''b''<sup>2</sup>|4''a''}}.

== Parabolae ==

=== Regular form ===

''y'' = ''ax''<sup>2</sup> + ''bx'' + ''c''

=== ''x''-intercept count ===

* When ''b''<sup>2</sup> > 4''ac'', there are two ''x''-intercepts, i.e. parabolae cross or cut the ''x''-axis twice.

* When ''b''<sup>2</sup> = 4''ac'', the only ''x''-intercept is ''x'' = –{{sfrac|''b''|2''a''}}, i.e. parabolae touch or hit the ''x''-axis only once.

* When ''b''<sup>2</sup> < 4''ac'', there are no ''x''-intercepts, i.e. parabolae never intersect the ''x''-axis.

=== Vertex figures ===

* (–{{sfrac|''b''|2''a''}}, {{sfrac|4''ac'' – ''b''<sup>2</sup>|4''a''}}) is the vertex figure lying on the parabola, written as ''y'' = ''ax''<sup>2</sup> + ''bx'' + ''c''

* When ''a'' > 0, parabolae have minimum vertex figures.

* When ''a'' < 0, parabolae have maximum vertex figures.

* When ''b''<sup>2</sup> = 4''ac'', the vertex figure is the only point of tangency at x = –{{sfrac|''b''|2''a''}}.

=== Axes of symmetry ===

* ''x'' = –{{sfrac|''b''|2''a''}} is the axis of symmetry, which is halfway between the ''x''-intercepts of the parabola, written as ''y'' = ''ax''<sup>2</sup> + ''bx'' + ''c'' where ''b''<sup>2</sup> > 4''ac''.

* When ''b''<sup>2</sup> = 4''ac'', the axis of symmetry is the only ''x''-intercept of the parabola, though written as ''x'' = –{{sfrac|''b''|2''a''}}.

== Theories focusing on quadratic expression coefficients ==

''a'' > 0, ''b'' < 0, ''c'' > 0, ''b''<sup>2</sup> > 4''ac''

''a'' > 0, ''b'' < 0, 0 < ''c'' < {{sfrac|''b''<sup>2</sup>|4''a''}}

''a'' > 0, ''b'' < –2{{sqrt|''ac''}}, ''c'' > 0

0 < ''a'' < {{sfrac|''b''<sup>2</sup>|4''c''}}, ''b'' < 0, ''c'' > 0

''a'' > 0, ''b'' < –2{{sqrt|''ac''}}, 0 < ''c'' < {{sfrac|''b''<sup>2</sup>|4''a''}}

0 < ''a'' < {{sfrac|''b''<sup>2</sup>|4''c''}}, ''b'' < 0, 0 < ''c'' < {{sfrac|''b''<sup>2</sup>|4''a''}}

0 < ''a'' < {{sfrac|''b''<sup>2</sup>|4''c''}}, ''b'' < –2{{sqrt|''ac''}}, ''c'' > 0

0 < ''a'' < {{sfrac|''b''<sup>2</sup>|4''c''}}, ''b'' < –2{{sqrt|''ac''}}, 0 < ''c'' < {{sfrac|''b''<sup>2</sup>|4''a''}}

== Quadratic function switch ==

=== Steps ===

''ax''<sup>2</sup> + ''bx'' + ''c'' = ''y''

4''a''<sup>2</sup>''x''<sup>2</sup> + 4''abx'' + 4''ac'' = 4''ay''

4''a''<sup>2</sup>''x''<sup>2</sup> + 4''abx'' = 4''a''(''y'' – ''c'')

4''a''<sup>2</sup>''x''<sup>2</sup> + 4''abx'' + ''b''<sup>2</sup> = ''b''<sup>2</sup> + 4''a''(''y'' – ''c'')

(2''ax'' + ''b'')<sup>2</sup> = ''b''<sup>2</sup> + 4''a''(''y'' – ''c'')

2''ax'' + ''b'' = ±{{sqrt|''b''<sup>2</sup> + 4''a''(''y'' – ''c'')}}

2''ax'' = –''b'' ± {{sqrt|''b''<sup>2</sup> + 4''a''(''y'' – ''c'')}}

''x'' = {{sfrac|–''b'' ± {{sqrt|''b''<sup>2</sup> + 4''a''(''y'' – ''c'')}}|2''a''}}

== Theory ==

* By square completion, ''ax''<sup>2</sup> + ''bx'' + ''c'' = ''y'' becomes (2''ax'' + ''b'')<sup>2</sup> = ''b''<sup>2</sup> + 4''a''(''y'' – ''c'').

* This theory shows that (2''ax'' + ''b'')<sup>2</sup> is on the left side and that {''b''<sup>2</sup> + 4''a''(''y'' – ''c'')} is on the right side.

* ''x'' = {{sfrac|–''b'' ± {{sqrt|''b''<sup>2</sup> + 4''a''(''y'' – ''c'')}}|2''a''}} is the switch to ''ax''<sup>2</sup> + ''bx'' + ''c'' = ''y''.

== Tangents to the parabola at intersection points relative to the horizontal axis ==

Given ''y'' = ''ax''<sup>2</sup> + ''bx'' + ''c'' where ''a'' > 0, ''b'' < 0, ''c'' > 0 and ''b''<sup>2</sup> > 4''ac''

(2''ax'' + ''b''){{sqrt|''b''<sup>2</sup> – 4''ac''}} + 2''ay'' = 4''ac'' – ''b''<sup>2</sup> at (–{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, 0)

2''ay'' = (2''ax'' + ''b''){{sqrt|''b''<sup>2</sup> – 4''ac''}} + 4''ac'' – ''b''<sup>2</sup> at ({{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, 0)

Tangents to the parabola, written as ''y'' = ''ax''<sup>2</sup> + ''bx'' + ''c'', at intersection points relative to the ''x''-axis where ''a'' > 0, ''b'' < 0, ''c'' > 0 and ''b''<sup>2</sup> > 4''ac''

== Theory ==

* (2''ax'' + ''b''){{sqrt|''b''<sup>2</sup> – 4''ac''}} + 2''ay'' = 4''ac'' – ''b''<sup>2</sup> is the tangent to the parabola, written as ''y'' = ''ax''<sup>2</sup> + ''bx'' + ''c'' where ''a'' > 0, ''b'' < 0, ''c'' > 0 and ''b''<sup>2</sup> > 4''ac'', at (–{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, 0).

* 2''ay'' = (2''ax'' + ''b''){{sqrt|''b''<sup>2</sup> – 4''ac''}} + 4''ac'' – ''b''<sup>2</sup> is the tangent to the parabola, written as ''y'' = ''ax''<sup>2</sup> + ''bx'' + ''c'' where ''a'' > 0, ''b'' < 0, ''c'' > 0 and ''b''<sup>2</sup> > 4''ac'', at ({{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, 0)

== Ways to solve quadratic equations ==

* Factorization (for or used by experts, masters or professionals)

* Square completion (for or used by experts, masters or professionals)

* Quadratic formula (for or used by beginners)

* Graphing (for or used by beginners)

Whereas the quadratic formula is only for beginners, experts, masters or professionals solve quadratic equations by square completion.

=== Factorization ===

Factorization is a way to solve quadratic equations by factorizing the left side. Experts, masters or professionals use the factorization method to solve quadratic equations. Some quadratic equations are unable to be solved by factorization.

=== Square completion ===

Square completion is a way to solve quadratic equations that are either hard to factorize to show integers or unable to be factorized. Experts, masters or professionals use the square completion method to solve quadratic equations. This method involves hard calculations, but it is best used when ''a'' = 1 and ''b'' is an even integer. It is the hardest quadratic-equation-solving method.

=== Formula ===

For quadratic equations that are either hard to factorize to show integers or unable to be factorized, the quadratic formula is required. Beginners use the quadratic formula to solve quadratic equations. This method consumes time when (''b''<sup>2</sup> – 4''ac'') is not written at first, but it is the easiest quadratic-equation-solving method.

=== Graphing ===

Parabola graphing is recommended when solving quadratic equations. Beginners use the graphing method to solve quadratic equations.

== Ways to convert quadratic expressions ==

* Factorized form

* Vertex form

=== Factorized form ===

Quadratic expressions can be converted to their factorized forms by factorization. In other words, the form is provided by the factorization method.

=== Vertex form ===

Quadratic expressions can be converted to their vertex forms by square completion. In other words, the form is provided by the square completion method.

== Vieta’s formula ==

''x''<sub>1</sub> + ''x''<sub>2</sub> = –{{sfrac|''b''|''a''}}

''x''<sub>1</sub>''x''<sub>2</sub> = {{sfrac|''c''|''a''}}

(''x''<sub>2</sub> – ''x''<sub>1</sub>)<sup>2</sup> = (''x''<sub>1</sub> + ''x''<sub>2</sub>)<sup>2</sup> – 4''x''<sub>1</sub>''x''<sub>2</sub>

(''x''<sub>2</sub> – ''x''<sub>1</sub>)<sup>2</sup> = (–{{sfrac|''b''|''a''}})<sup>2</sup> – {{sfrac|4''c''|''a''}}

(''x''<sub>2</sub> – ''x''<sub>1</sub>)<sup>2</sup> = {{sfrac|''b''<sup>2</sup> – 4''ac''|''a''<sup>2</sup>}}

''x''<sub>2</sub> – ''x''<sub>1</sub> = ±{{sfrac|{{sqrt|''b''<sup>2</sup> – 4''ac''}}|''a''}}

{{sfrac|''x''<sub>2</sub>|''x''<sub>1</sub>}} = {{sfrac|''b''<sup>2</sup> – 2''ac'' ± ''b''{{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''ac''}}

== Value and change theories ==

=== First theory ===

When ''a'' > 0 and ''b''<sup>2</sup> > 4''ac'', the quadratic expression:

* Decreases for ''x'' < –{{sfrac|''b''|2''a''}}, i.e. before ''x'' = –{{sfrac|''b''|2''a''}}.

* Has a minimum stationary value at ''x'' = -{{sfrac|''b''|2''a''}}.

* Increases for ''x'' > –{{sfrac|''b''|2''a''}}, i.e. after ''x'' = –{{sfrac|''b''|2''a''}}.

* Is negative for –{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}} < ''x'' < {{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, i.e. after ''x'' = –{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}} but before ''x'' = {{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}.

* Is zero at ''x'' = {{sfrac|–''b'' ± {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}.

* Is positive for both ''x'' < –{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, i.e. before ''x'' = –{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, and ''x'' > {{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, i.e. after ''x'' = {{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}.

=== Second theory ===

When ''a'' < 0 but ''b''<sup>2</sup> > 4''ac'', the quadratic expression:

* Increases for ''x'' < –{{sfrac|''b''|2''a''}}, i.e. before ''x'' = –{{sfrac|''b''|2''a''}}.

* Has a maximum stationary value at ''x'' = -{{sfrac|''b''|2''a''}}.

* Decreases for ''x'' > –{{sfrac|''b''|2''a''}}, i.e. after ''x'' = –{{sfrac|''b''|2''a''}}.

* Is positive for –{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}} < ''x'' < {{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, i.e. after ''x'' = –{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}} but before ''x'' = {{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}.

* Is zero at ''x'' = {{sfrac|–''b'' ± {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}.

* Is negative for both ''x'' < –{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, i.e. before ''x'' = –{{sfrac|''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, and ''x'' > {{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}, i.e. after ''x'' = {{sfrac|–''b'' + {{sqrt|''b''<sup>2</sup> – 4''ac''}}|2''a''}}.

=== Third theory ===

When ''a'' > 0 and ''b''<sup>2</sup> = 4''ac'', the quadratic expression:

* Decreases for ''x'' < –{{sfrac|''b''|2''a''}}, i.e. before ''x'' = –{{sfrac|''b''|2''a''}}.

* Has a minimum stationary value at ''x'' = -{{sfrac|''b''|2''a''}}.

* Increases for ''x'' > –{{sfrac|''b''|2''a''}}, i.e. after ''x'' = –{{sfrac|''b''|2''a''}}.

* Is zero at ''x'' = –{{sfrac|''b''|2''a''}}.

* Is positive for ''x'' ≠ –{{sfrac|''b''|2''a''}}, i.e. every value of ''x'' except ''x'' = –{{sfrac|''b''|2''a''}}.

=== Fourth theory ===

When ''a'' < 0 but ''b''<sup>2</sup> = 4''ac'', the quadratic expression:

* Increases for ''x'' < –{{sfrac|''b''|2''a''}}, i.e. before ''x'' = –{{sfrac|''b''|2''a''}}.

* Has a maximum stationary value at ''x'' = -{{sfrac|''b''|2''a''}}.

* Decreases for ''x'' > –{{sfrac|''b''|2''a''}}, i.e. after ''x'' = –{{sfrac|''b''|2''a''}}.

* Is zero at ''x'' = –{{sfrac|''b''|2''a''}}.

* Is negative for ''x'' ≠ –{{sfrac|''b''|2''a''}}, i.e. every value of ''x'' except ''x'' = –{{sfrac|''b''|2''a''}}.
     
 
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