y=cotx Conjugate Pairs s No H.A. f(x)-2 hyp/opp adj/hyp i 1/cscx Flip the base VLT 2pi/freq 1/cotx switch x & y x/r theta 45- 45-90 tan(pi/2 - x) 1/2f(x) 2f(x) y/r Amplitude y=tanx y/x y=secx 1/cosx HA: y=quotient of coefficients y=sinx 1/tanx opp/hyp 30- 60-90 sec(pi/2- x y=cscx Negative Reciprocal Slopes f(x- 2) hyp/adj Midline 2f(x) y=cosx f(x+2) 1/sinx rsin(theta) DesCartes Rule of Signs opp/adj sin(pi/2- x) Rational Root Test f(2x) HA: y=0 adj/opp Exponents 1/secx -f(x) f(x)+2 Root is tangent to x-axis Non- removable 0's in the denominator rcos(theta) Exponent Frequency f(-x) y=cotx Conjugate Pairs s No H.A. f(x)-2 hyp/opp adj/hyp i 1/cscx Flip the base VLT 2pi/freq 1/cotx switch x & y x/r theta 45- 45-90 tan(pi/2 - x) 1/2f(x) 2f(x) y/r Amplitude y=tanx y/x y=secx 1/cosx HA: y=quotient of coefficients y=sinx 1/tanx opp/hyp 30- 60-90 sec(pi/2- x y=cscx Negative Reciprocal Slopes f(x- 2) hyp/adj Midline 2f(x) y=cosx f(x+2) 1/sinx rsin(theta) DesCartes Rule of Signs opp/adj sin(pi/2- x) Rational Root Test f(2x) HA: y=0 adj/opp Exponents 1/secx -f(x) f(x)+2 Root is tangent to x-axis Non- removable 0's in the denominator rcos(theta) Exponent Frequency f(-x)
(Print)
y=cotx
Conjugate Pairs
s
No H.A.
f(x)-2
hyp/opp
adj/hyp
i
1/cscx
Flip the base
VLT
2pi/freq
1/cotx
switch x & y
x/r
theta
45-45-90
tan(pi/2 - x)
1/2f(x)
2f(x)
y/r
Amplitude
y=tanx
y/x
y=secx
1/cosx
HA: y=quotient of coefficients
y=sinx
1/tanx
opp/hyp
30-60-90
sec(pi/2-x
y=cscx
Negative Reciprocal Slopes
f(x-2)
hyp/adj
Midline
2f(x)
y=cosx
f(x+2)
1/sinx
rsin(theta)
DesCartes Rule of Signs
opp/adj
sin(pi/2-x)
Rational Root Test
f(2x)
HA: y=0
adj/opp
Exponents
1/secx
-f(x)
f(x)+2
Root is tangent to x-axis
Non-removable 0's in the denominator
rcos(theta)
Exponent
Frequency
f(-x)
