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Fundamental Identities
Simplifying Trig Expressions
Verifying Trig Identities
Solving Trig Equations
Potpourri
100

cos (-u)

cos u

100

sin x sec x

tan x

100

sec y cos y = 1

(1/cos y) cos y 

1

100

Solve for x on the interval [0, 2pi)

2 sin x + 1 = 0

x = 7pi/6, 11pi/6

100

Factor

x2 + 4x -12

(x + 6)(x - 2)

200

1/sin u

csc u

200

cot x/csc x

cos x

200

tan t cot t = 1

(sin t/cos t)(cos t/sin t)

(sin t cos t)/(cos t sin t)

1

200

Solve for x on the interval [0, 2pi)

sec x - 2 = 0

x = pi/3, 5pi/3

200

opposite/hypotenuse

sin x

300

sin u/cos u

tan u

300

cot u sin u + tan u cos u

cos u + sin u

300

tan (pi/2 - u) tan u = 1

cot u tan u

(1/tan u) tan u

1

300

Solve for x on the interval [0, 2pi)

sqrt(3) csc x - 2 = 0

x = pi/3, 2pi/3

300

For (x, y), cosine is the . . .

x - value

400

sin2u + cos2u

1

400

sin2x sec2x - sin2x

sin2x tan2x

400

cot2x sec2x - cot2x = 1

cot2x (sec2x-1)

cot2x tan2x

(1/tan2x) tan2x

1

400

Solve for x on the interval [0, 2pi)

2 cos2x + cos x - 1 = 0

x = pi/3, 5pi/3, pi

400

The cofunction of sine

Cosine

500

1 + cot2u

csc2u

500

cos2x + cos2x tan2x

1

500

cos x + sin x tan x = sec x

cos x + sin x (sin x/cos x)

cos x + sin2x/cos x

(cos2x/cos x) + (sin2x/cos x)

(cos2x + sin2x)/cos x

1/cos x

sec x

500

Solve for x on the interval [0, 2pi)

sec2x - 1 = 0

x = 0, pi

500

Factor

x4 - 16

(x2 + 4)(x2 - 4)