B14 Primary Trig Derivatives
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Transcript of B14 Primary Trig Derivatives
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B1.4 - Derivatives of Primary Trigonometric Functions
IB Math HL/SL - Santowski
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(A) Derivative of the Sine Function -Graphically
We will predict the what the derivativefunction of f(x) = sin(x) looks like from ourcurve sketching ideas:We will simply sketch 2 cycles(i) we see a maximum at /2 and -3 /2
derivative must have x-intercepts(ii) we see intervals of increase on (-2 ,-
3 /2), (- /2, /2), (3 /2,2 ) derivativemust increase on this intervals(iii) the opposite is true of intervals ofdecrease(iv) intervals of concave up are (- ,0) and( ,2 ) so derivative must increase onthese domains(v) the opposite is true for intervals of
concave up
So the derivative function must look like the cosine function!!
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(A) Derivative of the Sine Function -Graphically
We will predict the what the derivativefunction of f(x) = sin(x) looks like from ourcurve sketching ideas:We will simply sketch 2 cycles(i) we see a maximum at /2 and -3 /2
derivative must have x-intercepts(ii) we see intervals of increase on (-2 ,-
3 /2), (- /2, /2), (3 /2,2 ) derivativemust increase on this intervals(iii) the opposite is true of intervals ofdecrease(iv) intervals of concave up are (- ,0) and( ,2 ) so derivative must increase onthese domains(v) the opposite is true for intervals of
concave up
So the derivative function must look like the cosine function!!
![Page 4: B14 Primary Trig Derivatives](https://reader031.fdocuments.us/reader031/viewer/2022021315/577cc54f1a28aba7119bfb83/html5/thumbnails/4.jpg)
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(B) Derivative of Sine Function - Algebraically
We will go back to our limit concepts for determining the derivative of y = sin(x)algebraically
hh
xhh
x xdxd
xh
hhh
x xdxd
h xh
hh x
xdxd
h xhh x
xdxd
h x xhh x
xdxd
h xh x
xdxd
h x f h x f
x f
hh
hhhh
hh
h
h
h
h
)sin(lim)cos(
1)cos(lim)sin()sin(
)cos(lim)sin(
lim1)cos(
lim))(sin(lim)sin(
)cos()sin(lim
]1))[cos(sin(lim)sin(
)cos()sin()]1))[cos(sin(lim)sin(
)sin()cos()sin()cos()sin(lim)sin(
)sin()sin(lim)sin(
)()(lim)(
00
0000
00
0
0
0
0
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(B) Derivative of Sine Function - Algebraically
So we come across 2 special trigonometric limits:
and
So what do these limits equal?
We will introduce a new theorem called a Squeeze (orsandwich) theorem if we that our limit in question liesbetween two known values, then we can somehow “squeeze”the value of the limit by adjusting/manipulating our two knownvalues
So our known values will be areas of sectors and triangles sector DCB, triangle ACB, and sector ACB
h
h
h
)sin(lim
0 h
h
h
1)cos(lim
0
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(C) Applying “Squeeze Theorem” to Trig.Limits
1
0.8
0.6
0.4
0.2
-0.2
-0.4
-0.6
-0.8
-1
1.5 -1 -0.5 0.5 1 1.5
D
B = (cos(x), 0)CE = (1,0)
A = (cos(x), sin(x))
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(C) Applying “Squeeze Theorem” to Trig.Limits
We have sector DCB and sector ACB “squeezing” the triangle ACBSo the area of the triangle ACB should be “squeezed between”the area of the two sectors
1
0.8
0.6
0.4
0.2
-0.2
-0.4
-0.6
-0.8
-1
-1.5 -1 -0.5 0.5 1 1.5
D
B = (cos(x), 0)C
E = (1,0)
A = (cos(x), sin(x))
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(C) Applying “Squeeze Theorem” to Trig.Limits
Working with our area relationships (make h = )
We can “squeeze or sandwich” our ratio of sin(h) / h between cos(h)and 1/cos(h)
)cos(1)sin()cos(
)cos()cos()cos()sin(
)cos()(cos
)cos()sin()(cos
)1(2
1)cos()sin(2
1)(cos2
1
)()(21))((2
1)()(21
2
2
22
22
OC OAOBOB
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(C) Applying “Squeeze Theorem” to Trig.Limits
Now, let s apply the squeeze theorem as we take our limits as h0+ (and since sin(h) has even symmetry, the LHL as h 0 - )
Follow the link to Visual Calculus - Trig Limits of sin(h)/h to seetheir development of this fundamental trig limit
1)sin(
lim
1)sin(
lim1
)cos(
1lim
)sin(lim)cos(lim
0
0
000
h
hh
hhh
hh
h
h
hhh
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(C) Applying “Squeeze Theorem” to Trig.Limits
Now what about (cos(h) – 1) / h and its limit we will treat this algebraically
011
011
1)cos()sin(
lim)sin(
lim1
1)cos()(sin
lim
1)cos(1)(cos
lim
1)cos(
1)cos(1)cos(lim
1)cos(lim
00
2
0
2
0
0
0
h
h
h
h
hh
h
hh
hhh
hh
h
h
hh
h
h
h
h
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(D) Fundamental Trig. Limits Graphicand Numeric Verification
x y -0.05000 0.99958 -0.04167 0.99971 -0.03333 0.99981 -0.02500 0.99990 -0.01667 0.99995 -0.00833 0.99999 0.00000 undefined 0.00833 0.99999 0.01667 0.99995
0.02500 0.99990 0.03333 0.99981 0.04167 0.99971 0.05000 0.99958
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(D) Derivative of Sine Function
Since we have our two fundamental trig limits, we can now go backand algebraically verify our graphic “estimate” of the derivative of thesine function:
)cos()sin(
1)cos(0)sin()sin(
)sin(lim)cos(
1)cos(lim)sin()sin(
01)cos(
lim
1)sin(
lim
00
0
0
x xdxd
x x xdxd
hh
xhh
x xdxd
hhh
h
hh
h
h
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(E) Derivative of the Cosine Function
Knowing the derivative of the sine function,we can develop the formula for the cosinefunction
First, consider the graphic approach as wedid previously
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(E) Derivative of the Cosine Function
We will predict the what the derivativefunction of f(x) = cos(x) looks like fromour curve sketching ideas:We will simply sketch 2 cycles(i) we see a maximum at 0, -2 & 2 derivative must have x-intercepts(ii) we see intervals of increase on (- ,0),
( , 2 ) derivative must increase onthis intervals(iii) the opposite is true of intervals ofdecrease(iv) intervals of concave up are (-3 /2,-
/2) and ( /2 ,3 /2) so derivative mustincrease on these domains(v) the opposite is true for intervals of
concave upSo the derivative function must look like
some variation of the sine function!!
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(E) Derivative of the Cosine Function
We will predict the what the derivativefunction of f(x) = cos(x) looks like fromour curve sketching ideas:We will simply sketch 2 cycles(i) we see a maximum at 0, -2 & 2 derivative must have x-intercepts(ii) we see intervals of increase on (- ,0),
( , 2 ) derivative must increase onthis intervals(iii) the opposite is true of intervals ofdecrease(iv) intervals of concave up are (-3 /2,-
/2) and ( /2 ,3 /2) so derivative mustincrease on these domains(v) the opposite is true for intervals of
concave upSo the derivative function must look like
the negative sine function!!
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(E) Derivative of the Cosine Function
Let s set it up algebraically:
)sin(1)sin()cos(
)1(2
cos)cos(
22sin
2
)cos(
2sin)cos(
x x xdxd
x xdx
d
xdxd x
xd
d xdxd
xdxd
xdxd
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(F) Derivative of the Tangent Function -Graphically
So we will go through ourcurve analysis againf(x) is constantly increasingwithin its domain
f(x) has no max/min pointsf(x) changes concavity fromcon down to con up at 0,+ f(x) has asymptotes at +3
/2, + /2
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(F) Derivative of the Tangent Function -Graphically
So we will go through ourcurve analysis again:F(x) is constantly increasingwithin its domain f `(x)should be positive within itsdomainF(x) has no max/min points f „(x) should not have roots F(x) changes concavity fromcon down to con up at 0,+ f „(x) changes from decrease toincrease and will have a minF(x) has asymptotes at +3 /2, + /2 derivative shouldhave asymptotes at the samepoints
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(F) Derivative of the Tangent Function - Algebraically
We will use the fact that tan(x) = sin(x)/cos(x) to find the derivative of tan(x)
x x
xdxd
x x x xdxd
x x x x x
xdxd
x x xdx
d x xdx
d
xdxd
x x
dxd
xdxd
22
2
22
2
2
seccos
1)tan(
cos sincos)tan(
cos)sin()sin()cos()cos(
)tan(
)cos()sin()cos()cos()sin()tan(
)cos()sin(
)tan(
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(H) Homework
Stewart, 1989, Chap 7.2, Q1-5,11