[[1]]
c o s ( a + b ) = c o s ( a ) c o s ( b ) − s i n ( a ) s i n ( b ) {\displaystyle cos(a+b)=cos(a)cos(b)-sin(a)sin(b)}
c o s ( a − b ) = c o s ( a ) c o s ( b ) + s i n ( a ) s i n ( b ) {\displaystyle cos(a-b)=cos(a)cos(b)+sin(a)sin(b)}
s i n ( a + b ) = s i n ( a ) c o s ( b ) + s i n ( b ) c o s ( a ) {\displaystyle sin(a+b)=sin(a)cos(b)+sin(b)cos(a)}
s i n ( a − b ) = s i n ( a ) c o s ( b ) − s i n ( b ) c o s ( a ) {\displaystyle sin(a-b)=sin(a)cos(b)-sin(b)cos(a)}
t a n ( a + b ) = t a n ( a ) + t a n ( b ) 1 − t a n ( a ) . t a n ( b ) {\displaystyle tan(a+b)={\frac {tan(a)+tan(b)}{1-tan(a).tan(b)}}}
t a n ( a − b ) = t a n ( a ) − t a n ( b ) 1 + t a n ( a ) . t a n ( b ) {\displaystyle tan(a-b)={\frac {tan(a)-tan(b)}{1+tan(a).tan(b)}}}
s i n ( 2 a ) = 2 s i n ( a ) . c o s ( a ) {\displaystyle sin(2a)=2sin(a).cos(a)}
c o s ( 2 a ) = c o s 2 ( a ) − s i n 2 ( a ) {\displaystyle cos(2a)=cos^{2}(a)-sin^{2}(a)}
t a n ( 2 a ) = 2. t a n ( a ) 1 − t a n 2 ( a ) {\displaystyle tan(2a)={\frac {2.tan(a)}{1-tan^{2}(a)}}}
1 + c o s ( 2 a ) = 2. c o s 2 ( a ) {\displaystyle 1+cos(2a)=2.cos^{2}(a)}
1 − c o s ( 2 a ) = 2. s i n 2 ( a ) {\displaystyle 1-cos(2a)=2.sin^{2}(a)}
s i n ( p ) + s i n ( q ) = 2 s i n p + q 2 .2 c o s p − q 2 {\displaystyle sin(p)+sin(q)=2sin{\frac {p+q}{2}}.2cos{\frac {p-q}{2}}}
s i n ( p ) − s i n ( q ) = 2 c o s p + q 2 .2 s i n p − q 2 {\displaystyle sin(p)-sin(q)=2cos{\frac {p+q}{2}}.2sin{\frac {p-q}{2}}}
c o s ( p ) + c o s ( q ) = 2 c o s p + q 2 .2 c o s p − q 2 {\displaystyle cos(p)+cos(q)=2cos{\frac {p+q}{2}}.2cos{\frac {p-q}{2}}}
c o s ( p ) − c o s ( q ) = − 2 s i n p + q 2 .2 s i n p − q 2 {\displaystyle cos(p)-cos(q)=-2sin{\frac {p+q}{2}}.2sin{\frac {p-q}{2}}}
Simple --> [2]
: vient de pythagore, le carré de l'hypoténuse est égal à la somme des carrés des deux autres côtés
