English

Español

Português

Français

Deutsch

Italiano

Русский

中文(简体)

한국어

日本語

Tiếng Việt

עברית

العربية

Beliebt Trigonometrie >

cos(x)=(cot^2(x))/(csc^2(x))

Lösung

cos (x) = \frac{cot ^{2} ( x )}{csc ^{2} ( x )}

Lösung

x = \frac{π}{2} + 2 πn, x = \frac{3 π}{2} + 2 πn

Grad

x = 9 0^{\circ} + 36 0^{\circ} n, x = 27 0^{\circ} + 36 0^{\circ} n

Schritte zur Lösung

cos (x) = \frac{cot ^{2} ( x )}{csc ^{2} ( x )}

Subtrahiere

\frac{cot ^{2} ( x )}{csc ^{2} ( x )}

von beiden Seiten

cos (x) - \frac{cot ^{2} ( x )}{csc ^{2} ( x )} = 0

Vereinfache

cos (x) - \frac{cot ^{2} ( x )}{csc ^{2} ( x )} : \frac{csc ^{2} ( x ) cos ( x ) - cot ^{2} ( x )}{csc ^{2} ( x )}

cos (x) - \frac{cot ^{2} ( x )}{csc ^{2} ( x )}

Wandle das Element in einen Bruch um:

cos (x) = \frac{cos ( x ) csc ^{2} ( x )}{csc ^{2} ( x )}

= \frac{cos ( x ) csc ^{2} ( x )}{csc ^{2} ( x )} - \frac{cot ^{2} ( x )}{csc ^{2} ( x )}

Da die Nenner gleich sind, fasse die Brüche zusammen.:

\frac{a}{c} \pm \frac{b}{c} = \frac{a \pm b}{c}

= \frac{cos ( x ) csc ^{2} ( x ) - cot ^{2} ( x )}{csc ^{2} ( x )}

\frac{csc ^{2} ( x ) cos ( x ) - cot ^{2} ( x )}{csc ^{2} ( x )} = 0

\frac{f ( x )}{g ( x )} = 0 \Rightarrow f (x) = 0

csc^{2} (x) cos (x) - cot^{2} (x) = 0

Drücke mit sin, cos aus

- cot^{2} (x) + cos (x) csc^{2} (x)

Verwende die grundlegende trigonometrische Identität:

cot (x) = \frac{cos ( x )}{sin ( x )}

= - (\frac{cos ( x )}{sin ( x )})^{2} + cos (x) csc^{2} (x)

Verwende die grundlegende trigonometrische Identität:

csc (x) = \frac{1}{sin ( x )}

= - (\frac{cos ( x )}{sin ( x )})^{2} + cos (x) (\frac{1}{sin ( x )})^{2}

Vereinfache

- (\frac{cos ( x )}{sin ( x )})^{2} + cos (x) (\frac{1}{sin ( x )})^{2} : \frac{- cos ^{2} ( x ) + cos ( x )}{sin ^{2} ( x )}

- (\frac{cos ( x )}{sin ( x )})^{2} + cos (x) (\frac{1}{sin ( x )})^{2}

(\frac{cos ( x )}{sin ( x )})^{2} = \frac{cos ^{2} ( x )}{sin ^{2} ( x )}

(\frac{cos ( x )}{sin ( x )})^{2}

Wende Exponentenregel an:

(\frac{a}{b})^{c} = \frac{a ^{c}}{b ^{c}}

= \frac{cos ^{2} ( x )}{sin ^{2} ( x )}

cos (x) (\frac{1}{sin ( x )})^{2} = \frac{cos ( x )}{sin ^{2} ( x )}

cos (x) (\frac{1}{sin ( x )})^{2}

(\frac{1}{sin ( x )})^{2} = \frac{1}{sin ^{2} ( x )}

(\frac{1}{sin ( x )})^{2}

Wende Exponentenregel an:

(\frac{a}{b})^{c} = \frac{a ^{c}}{b ^{c}}

= \frac{1 ^{2}}{sin ^{2} ( x )}

Wende Regel an

1^{a} = 1

1^{2} = 1

= \frac{1}{sin ^{2} ( x )}

= \frac{1}{sin ^{2} ( x )} cos (x)

Multipliziere Brüche:

a \cdot \frac{b}{c} = \frac{a \cdot b}{c}

= \frac{1 \cdot cos ( x )}{sin ^{2} ( x )}

Multipliziere:

1 \cdot cos (x) = cos (x)

= \frac{cos ( x )}{sin ^{2} ( x )}

= - \frac{cos ^{2} ( x )}{sin ^{2} ( x )} + \frac{cos ( x )}{sin ^{2} ( x )}

Wende Regel an

\frac{a}{c} \pm \frac{b}{c} = \frac{a \pm b}{c}

= \frac{- cos ^{2} ( x ) + cos ( x )}{sin ^{2} ( x )}

= \frac{- cos ^{2} ( x ) + cos ( x )}{sin ^{2} ( x )}

\frac{cos ( x ) - cos ^{2} ( x )}{sin ^{2} ( x )} = 0

\frac{f ( x )}{g ( x )} = 0 \Rightarrow f (x) = 0

cos (x) - cos^{2} (x) = 0

Löse mit Substitution

cos (x) - cos^{2} (x) = 0

Angenommen:

cos (x) = u

u - u^{2} = 0

u - u^{2} = 0 : u = 0, u = 1

u - u^{2} = 0

Schreibe in der Standard Form

a x^{2} + b x + c = 0

- u^{2} + u = 0

Löse mit der quadratischen Formel

- u^{2} + u = 0

Quadratische Formel für Gliechungen:

Für

a = - 1, b = 1, c = 0

u_{1, 2} = \frac{- 1 \pm 1 ^{2} - 4 ( - 1 ) \cdot 0}{2 ( - 1 )}

u_{1, 2} = \frac{- 1 \pm 1 ^{2} - 4 ( - 1 ) \cdot 0}{2 ( - 1 )}

1^{2} - 4 (- 1) \cdot 0 = 1

1^{2} - 4 (- 1) \cdot 0

Wende Regel an

1^{a} = 1

1^{2} = 1

= 1 - 4 (- 1) \cdot 0

Wende Regel an

- (- a) = a

= 1 + 4 \cdot 1 \cdot 0

Wende Regel an

0 \cdot a = 0

= 1 + 0

Addiere die Zahlen:

1 + 0 = 1

= 1

Wende Regel an

1 = 1

= 1

u_{1, 2} = \frac{- 1 \pm 1}{2 ( - 1 )}

Trenne die Lösungen

u_{1} = \frac{- 1 + 1}{2 ( - 1 )}, u_{2} = \frac{- 1 - 1}{2 ( - 1 )}

u = \frac{- 1 + 1}{2 ( - 1 )} : 0

\frac{- 1 + 1}{2 ( - 1 )}

Entferne die Klammern:

(- a) = - a

= \frac{- 1 + 1}{- 2 \cdot 1}

Addiere/Subtrahiere die Zahlen:

- 1 + 1 = 0

= \frac{0}{- 2 \cdot 1}

Multipliziere die Zahlen:

2 \cdot 1 = 2

= \frac{0}{- 2}

Wende Bruchregel an:

\frac{a}{- b} = - \frac{a}{b}

= - \frac{0}{2}

Wende Regel an

\frac{0}{a} = 0, a \neq = 0

= - 0

= 0

u = \frac{- 1 - 1}{2 ( - 1 )} : 1

\frac{- 1 - 1}{2 ( - 1 )}

Entferne die Klammern:

(- a) = - a

= \frac{- 1 - 1}{- 2 \cdot 1}

Subtrahiere die Zahlen:

- 1 - 1 = - 2

= \frac{- 2}{- 2 \cdot 1}

Multipliziere die Zahlen:

2 \cdot 1 = 2

= \frac{- 2}{- 2}

Wende Bruchregel an:

\frac{- a}{- b} = \frac{a}{b}

= \frac{2}{2}

Wende Regel an

\frac{a}{a} = 1

= 1

Die Lösungen für die quadratische Gleichung sind:

u = 0, u = 1

Setze in

u = cos (x)

ein

cos (x) = 0, cos (x) = 1

cos (x) = 0, cos (x) = 1

cos (x) = 0 : x = \frac{π}{2} + 2 πn, x = \frac{3 π}{2} + 2 πn

cos (x) = 0

Allgemeine Lösung für

cos (x) = 0

cos (x)

Periodizitätstabelle mit

2 πn

Zyklus:

x 0 \frac{π}{6} \frac{π}{4} \frac{π}{3} \frac{π}{2} \frac{2 π}{3} \frac{3 π}{4} \frac{5 π}{6} cos (x) 1 \frac{3}{2} \frac{2}{2} \frac{1}{2} 0 - \frac{1}{2} - \frac{2}{2} - \frac{3}{2} x π \frac{7 π}{6} \frac{5 π}{4} \frac{4 π}{3} \frac{3 π}{2} \frac{5 π}{3} \frac{7 π}{4} \frac{11 π}{6} cos (x) - 1 - \frac{3}{2} - \frac{2}{2} - \frac{1}{2} 0 \frac{1}{2} \frac{2}{2} \frac{3}{2}

x = \frac{π}{2} + 2 πn, x = \frac{3 π}{2} + 2 πn

x = \frac{π}{2} + 2 πn, x = \frac{3 π}{2} + 2 πn

cos (x) = 1 : x = 2 πn

cos (x) = 1

Allgemeine Lösung für

cos (x) = 1

cos (x)

Periodizitätstabelle mit

2 πn

Zyklus:

x 0 \frac{π}{6} \frac{π}{4} \frac{π}{3} \frac{π}{2} \frac{2 π}{3} \frac{3 π}{4} \frac{5 π}{6} cos (x) 1 \frac{3}{2} \frac{2}{2} \frac{1}{2} 0 - \frac{1}{2} - \frac{2}{2} - \frac{3}{2} x π \frac{7 π}{6} \frac{5 π}{4} \frac{4 π}{3} \frac{3 π}{2} \frac{5 π}{3} \frac{7 π}{4} \frac{11 π}{6} cos (x) - 1 - \frac{3}{2} - \frac{2}{2} - \frac{1}{2} 0 \frac{1}{2} \frac{2}{2} \frac{3}{2}

x = 0 + 2 πn

x = 0 + 2 πn

Löse

x = 0 + 2 πn : x = 2 πn

x = 0 + 2 πn

0 + 2 πn = 2 πn

x = 2 πn

x = 2 πn

Kombiniere alle Lösungen

x = \frac{π}{2} + 2 πn, x = \frac{3 π}{2} + 2 πn, x = 2 πn

Da die Gleichung undefiniert ist für:

2 πn

x = \frac{π}{2} + 2 πn, x = \frac{3 π}{2} + 2 πn

Graph

Beliebte Beispiele

2tan^2(x)-3cot^2(x)=5

2 tan^{2} (x) - 3 cot^{2} (x) = 5

solvefor x,13y=cos^4(1-2x)

so l v e f or x, 13 y = cos^{4} (1 - 2 x)

cos(x)+cos^2(x)+cos^3(x)=0

cos (x) + cos^{2} (x) + cos^{3} (x) = 0

cos(x)-sin(x)= 1/((sin(x)))-1/((cos(x)))

cos (x) - sin (x) = \frac{1}{( sin ( x ) )} - \frac{1}{( cos ( x ) )}

sin^2(x)+cos^5(x)=2

sin^{2} (x) + cos^{5} (x) = 2