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Cheat Sheet

Trigonometrie Formulas

Jede trigonometrische Identität, die in Algebra II, Vorkalkül, Analysis und Ingenieurwesen vorkommt, in sieben Gruppen geordnet. Jede Identität enthält einen einzeiligen Anwendungshinweis. Setze ein Lesezeichen auf diese Seite und kombiniere sie mit dem AI-Math-Löser, wenn dir eine Identität in den Hausaufgaben unbekannt vorkommt.

Reziproke Identitäten

csc

cscθ=1sinθ\csc\theta = \frac{1}{\sin\theta}

Der Kosekans ist der Kehrwert des Sinus.

sec

secθ=1cosθ\sec\theta = \frac{1}{\cos\theta}

Der Sekans ist der Kehrwert des Kosinus.

cot

cotθ=1tanθ\cot\theta = \frac{1}{\tan\theta}

Der Kotangens ist der Kehrwert des Tangens.

Quotientenidentitäten

tan aus sin/cos

tanθ=sinθcosθ\tan\theta = \frac{\sin\theta}{\cos\theta}

Wandle tan bei Schwierigkeiten immer in sin/cos um.

cot aus cos/sin

cotθ=cosθsinθ\cot\theta = \frac{\cos\theta}{\sin\theta}

Der Kotangens ausgedrückt durch die beiden Grundfunktionen.

Pythagorean identities

Main identity

sin2θ+cos2θ=1\sin^2\theta + \cos^2\theta = 1

The most-used identity in trigonometry — derives from the unit circle.

Tan form

1+tan2θ=sec2θ1 + \tan^2\theta = \sec^2\theta

Divide the main identity by cos2θ\cos^2\theta.

Cot form

1+cot2θ=csc2θ1 + \cot^2\theta = \csc^2\theta

Divide the main identity by sin2θ\sin^2\theta.

Even-odd / cofunction

sin is odd

sin(θ)=sinθ\sin(-\theta) = -\sin\theta

Sin reflects across the origin.

cos is even

cos(θ)=cosθ\cos(-\theta) = \cos\theta

Cos reflects across the y-axis.

tan is odd

tan(θ)=tanθ\tan(-\theta) = -\tan\theta

Inherits oddness from sin/cos.

Cofunction (sin)

sin(π2θ)=cosθ\sin\bigl(\tfrac{\pi}{2} - \theta\bigr) = \cos\theta

Sine of complementary angle = cosine of original.

Cofunction (tan)

tan(π2θ)=cotθ\tan\bigl(\tfrac{\pi}{2} - \theta\bigr) = \cot\theta

Tan-cot pair.

Sum and difference

sin sum

sin(A±B)=sinAcosB±cosAsinB\sin(A \pm B) = \sin A\cos B \pm \cos A\sin B

The single most useful sum formula.

cos sum

cos(A±B)=cosAcosBsinAsinB\cos(A \pm B) = \cos A\cos B \mp \sin A\sin B

Note the flipped sign in the result.

tan sum

tan(A±B)=tanA±tanB1tanAtanB\tan(A \pm B) = \frac{\tan A \pm \tan B}{1 \mp \tan A \tan B}

Useful when working purely in tangents.

Double-angle

sin 2θ

sin(2θ)=2sinθcosθ\sin(2\theta) = 2\sin\theta\cos\theta

Comes from sum identity with A=B=θA = B = \theta.

cos 2θ (three forms)

cos(2θ)=cos2θsin2θ=2cos2θ1=12sin2θ\cos(2\theta) = \cos^2\theta - \sin^2\theta = 2\cos^2\theta - 1 = 1 - 2\sin^2\theta

Pick the form that matches what you have.

tan 2θ

tan(2θ)=2tanθ1tan2θ\tan(2\theta) = \frac{2\tan\theta}{1 - \tan^2\theta}

Avoid when tanθ=±1\tan\theta = \pm 1 (undefined).

Half-angle

sin half-angle

sin(θ2)=±1cosθ2\sin\bigl(\tfrac{\theta}{2}\bigr) = \pm\sqrt{\tfrac{1 - \cos\theta}{2}}

Sign depends on quadrant of θ/2\theta/2.

cos half-angle

cos(θ2)=±1+cosθ2\cos\bigl(\tfrac{\theta}{2}\bigr) = \pm\sqrt{\tfrac{1 + \cos\theta}{2}}

Same caveat about sign.

tan half-angle

tan(θ2)=1cosθsinθ=sinθ1+cosθ\tan\bigl(\tfrac{\theta}{2}\bigr) = \frac{1 - \cos\theta}{\sin\theta} = \frac{\sin\theta}{1 + \cos\theta}

Two equivalent forms — pick whichever avoids division by zero.

Product-to-sum (advanced)

sin·cos

sinAcosB=12[sin(A+B)+sin(AB)]\sin A \cos B = \tfrac{1}{2}[\sin(A+B) + \sin(A-B)]

Converts product to sum — useful in integrals.

cos·cos

cosAcosB=12[cos(AB)+cos(A+B)]\cos A \cos B = \tfrac{1}{2}[\cos(A-B) + \cos(A+B)]

Same role for cosines.

sin·sin

sinAsinB=12[cos(AB)cos(A+B)]\sin A \sin B = \tfrac{1}{2}[\cos(A-B) - \cos(A+B)]

Note the negative sign.

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