Difference between revisions of "User:Saul/algebra"

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m (Various Formulae)
(Quadratics)
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'''sec(x) = 1 / cos(x)'''<br>
 
'''sec(x) = 1 / cos(x)'''<br>
 
'''sec<sup>2</sup>(x) = 1 / cos<sup>2</sup>(x)'''<br>
 
'''sec<sup>2</sup>(x) = 1 / cos<sup>2</sup>(x)'''<br>
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== Quadratics ==
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=== Complete the Square ===
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The completed square looks like this:<br>
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'''y = a(x - dx)<sup>2</sup> + dy'''<br>
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'''a''' is the shape, a negative value indicates a '''n''' like shape where a positive value indicates a '''u''' like shape.
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==== Formulae ====
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To convert a general quadratic to the completed square, use the following formulae:<br>
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'''y = ax<sup>2</sup> + bx + c &#8594; a(x + b / 2a)<sup>2</sup> - b<sup>2</sup> / 4a + c'''

Revision as of 21:55, 5 October 2019

Combinations and Permutations

Permutations/Pick

A permutation is a sequence where the order does matter.
This is often notated by n pick r where n is the data set - say 40 lotto balls and r is the selection count - say 8 balls.
The general formulae for permutations is:
P = n! / (n-k)!

Combinations/Choose

A combination is a sequence where the order does NOT matter.
This is often notated by n choose r - n and r mean the same thing as in pick.
The general formulae for combinations is:
C = n! / ((n-k)!k!)
Also note that:
n choose k is the same as n choose (n - k)

Binomial Theorem

(a + b)n = k=0Σn ( ( n choose k ) ak bn-k )

Approximation Using Binomial

Calculating a number to the power of another can be approximated by the following formulae:

(1 + x)n = 1 + nx + (n(n-1)x2)/2! + (n(n-1)(n-2)x3)/3! + (n(n-1)(n-2)(n-3)x4)/4! ...

Note: This is unending so the more steps you take the more accurate the number will be, however usually 3-4 steps is enough.

Trigonometry

Various Formulae

sin2(x) = sin(x) * sin(x)
sin(x2) = sin(x * x)
tan(x) = sin(x) / cos(x)
sin2(x) + cos2(x) = 1
sin(x) = cos(90 - x)

A / sin(a) = C / sin(c) = C / sin(c)
a2 = b2 + c2 - 2bc * cos (A)

Note:
± = ± → + = + → - = -
± = ∓; → + = - → - = +

sin(a ± b) = sin(a) * cos(b) ± cos(a) * sin(b)
sin(a ± b) = cos(a) * cos(b) ∓ sin(a) * sin(b)

sin(2a) = 2sin(a) * cos(a)
cos(2a) = cos2(a) - sin2(a)

sin2(a) = ( 1 - cos(2a) ) / 2
cos2(a) = ( 1 + cos(2a) ) / 2

csc(x) = 1 / sin(x)
sec(x) = 1 / cos(x)
sec2(x) = 1 / cos2(x)

Quadratics

Complete the Square

The completed square looks like this:
y = a(x - dx)2 + dy
a is the shape, a negative value indicates a n like shape where a positive value indicates a u like shape.

Formulae

To convert a general quadratic to the completed square, use the following formulae:
y = ax2 + bx + c → a(x + b / 2a)2 - b2 / 4a + c