chapter 2 differentiation (微分)
TRANSCRIPT
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Chapter 2Differentiation
(微分)
Hung-Yuan Fan (范洪源)
Department of Mathematics,National Taiwan Normal University, Taiwan
Fall 2018
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 1/65
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本章預定授課範圍
2.1 The Derivative and the Tangent Line Problem2.2 Basic Differentiation Rules and Rates of Change2.3 Product and Quotient Rules and Higher-OrderDerivatives2.4 The Chain Rule2.5 Implicit Differentiation2.6 Derivatives of Inverse Functions
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 2/65
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Section 2.1The Derivative and the Tangent Line
Problem(導數與切線問題)
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 3/65
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Tangent Line Problem (切線問題)Let f be a real-valued function defined on I = (a, b) with c ∈ I.What is the slope (斜率) m of the tangent line (切線) to thegraph of f at the point P(c, f(c))?
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 4/65
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示意圖 (承上頁)
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 5/65
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示意圖 (承上頁)
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 5/65
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ObsevationSince the slope of the secant line (割線) passing through P(c, f(c))and Q(c +∆x, f(c +∆x)) is
msec =∆y∆x =
f(c +∆x)− f(c)∆x ,
the slope m of the tangent line at P is determined by considering
m = lim∆x→0
msec = lim∆x→0
f(c +∆x)− f(c)∆x .
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 6/65
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Def (切線的定義)
If m = lim∆x→0
f(c+∆x)−f(c)∆x = lim
x→cf(x)−f(c)
x−c ∃, then the line passingthrough P(c, f(c)) with slope m is called a tangent line to thegraph of f at P.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 7/65
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Vertical Tangent Lines
Def (垂直切線的定義)A line x = c is called the vertical tangnet line (垂直切線) to thegraph of f at the point (c, f(c)) if
lim∆x→0+
f(c +∆x)− f(c)∆x = lim
x→c+f(x)− f(c)
x − c = ±∞
orlim
∆x→0−
f(c +∆x)− f(c)∆x = lim
x→c−f(x)− f(c)
x − c = ±∞.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 8/65
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垂直切線的示意圖
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 9/65
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Remark (切線方程式)Equation of the tangent line to the graph of y = f(x) at the point(c, f(c)) is given by
y − f(c) = m(x − c). (Point-Slope Form; 點斜式)
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 10/65
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Example 4Let f(x) = √x for x ≥ 0.(a) Find the tangent line to the graph of f at (4, 2).(b) Find the slopes of the graph of f at (1, 1) and (0, 0).
Sol: For c > 0, the slope of a tangent line passing through (c, f(c))is given by
m = lim∆x→0
f(c +∆x)− f(c)∆x = lim
∆x→0
√c +∆x −√c
∆x= lim
∆x→0
∆x∆x(
√c +∆x +√c)
=1√
c + 0 +√c
=1
2√c .
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 11/65
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(a) At the point (4, 2), m = 12√4= 1
4 and the equation of thetangent line at (4, 2) is
y − 2 =1
4(x − 4) or y =
1
4x + 1.
(b) The slope of the graph of f at (1, 1) is m = 12√1= 1
2 . Inaddition, the slope of a tangent line at (0, 0) is
lim∆x→0+
f(0 + ∆x)− f(0)∆x = lim
∆x→0+
1√∆x
= ∞,
and hence the graph of f has a vertical tangent line at x = 0.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 12/65
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示意圖 (承上例)
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 13/65
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HomeworkRead Examples 1 and 2 by yourself.
Def (導數或導函數的定義)(1) The derivative (導數) of f at x ∈ dom(f) is
f ′(x) = lim∆x→0
f(x +∆x)− f(x)∆x = lim
z→xf(z)− f(x)
z − x .
(2) f is differentiable (可微分; 簡寫為 diff.) at x ∈ dom(f) if thederivative f ′(x) ∃.
(3) f is diff. on I = (a, b) if it is diff. at each x ∈ I.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 14/65
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NotesIf S = {x ∈ dom(f) | f ′(x) ∃}, the first derivative f ′ can beregarded as a function defined on S.
For any y = f(x), the derivative is often denoted by
f ′(x) = y ′(x) = df(x)dx =
dydx = Dxf(x) = D1f(x).
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 15/65
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Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 16/65
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RecallSice the following equality
(a + b)3 = a3 + 3a2b + 3ab2 + b3
holds for any a, b ∈ R, we immediately obtain
(x +∆x)3 = x3 + 3x2(∆x) + 3x(∆x)2 + (∆x)3.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 17/65
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Differentiability v.s. Continuity
Thm 2.1 (可微分 =⇒ 連續)Let f be a real-valued function defined on X ⊆ R withc ∈ X = dom(f). If f is diff. at c, then f is conti. at c.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 18/65
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Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 19/65
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Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 20/65
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Remarks1 函數的可微分點必定是連續點,詳見 Thm 2.1。
2 但是,函數的連續點不一定是可微分點! 詳見 Example 6 和Example 7。
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 21/65
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Sections 2.2 & 2.3Basic Differentiation Rules and
Higher-Order Derivatives(基本微分法則與高階導數)
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 22/65
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Thm (Basic Differentiation Rules)Let f and g be diff. functions of x and c ∈ R. Then(1) d
dx [c] = 0.
(2) ddx [xn] = n · xn−1 for n ∈ R.
(3) ddx [f(x)± g(x)] = f ′(x)± g ′(x).
(4) ddx [c · f(x)] = c · f ′(x).
(5) ddx [f(x)g(x)] = f ′(x)g(x) + f(x)g ′(x) = (前微)(後不微) + (前不微)(後微).
(6) ddx
[f(x)g(x)
]= f ′(x)g(x)−f(x)g ′(x)
[g(x)]2 = (子微)(母不微) - (子不微)(母微)(母)2 .
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 23/65
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Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 24/65
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Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 25/65
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Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 26/65
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Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 27/65
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Thm (Derivatives of Elementary Functions)(1) d
dx [sin x] = cos x, ddx [cos x] = − sin x.
(2) ddx [tan x] = sec2 x, d
dx [cot x] = − csc2 x.
(3) ddx [sec x] = sec x tan x, d
dx [csc x] = − csc x cot x.
(4) ddx [ex] = ex, d
dx [ ln |x| ] = 1x for x = 0.
Equivalent Def. of Euler number eThe number e is the base number of an exponential function s.t.the slope of the tangent line at (0, 1) is 1, i.e., it satisfies
lim∆x→0
e∆x − e0∆x = lim
∆x→0
e∆x − 1
∆x = 1.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 28/65
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Sketch of the Proof
(1)
ddx [sin x] = lim
∆x→0
sin(x +∆x)− sin x∆x
= lim∆x→0
sin x cos(∆x) + cos x sin(∆x)− sin x∆x
= sin x(
lim∆x→0
cos(∆x)− 1
∆x)+ cos x
(lim
∆x→0
sin(∆x)∆x
)= (sin x)(0) + cos x · 1 = cos x.
(2) ddx [tan x] = d
dx
[sin xcos x
]= cos2 x+sin2 x
cos2 x = sec2 x.
(3) ddx [sec x] = d
dx
[1
cos x
]= (0) cos x−1·(− sin x)
cos2 x =(
1cos x
)(sin xcos x
)=
sec x tan x.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 29/65
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Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 30/65
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Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 31/65
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Higher-Order Derivatives (高階導函數)
Let y = f(x) be a diff. function of x. Thenfirst derivative: y ′ = f ′(x) = dy
dx = ddx [f(x)].
second derivative: y ′′ = f ′′(x) = d2ydx2 = d2
dx2 [f(x)] ≡ddx(y ′).
third derivative: y ′′′ = f ′′′(x) = d3ydx3 = d3
dx3 [f(x)] ≡ddx(y ′′).
fourth derivative: y(4) = f(4)(x) = d4ydx4 = d4
dx4 [f(x)] ≡ddx(y ′′′).
...nth derivative: y(n) = f(n)(x) = dny
dxn = dndxn [f(x)] ≡ d
dx(y(n−1))
for n ∈ N. Here, we denote y(0) = y = f(x).
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 32/65
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Section 2.4The Chain Rule
(連鎖律)
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 33/65
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Thm 2.11 (The Chain Rule; 連鎖律)If y = f(u) is a diff. function of u and u = g(x) is a diff. function ofx, then y = f(g(x)) is a diff. function of x and
dydx =
dydu
dudx or d
dx[f(g(x))
]= f ′(g(x)) · g ′(x).
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Thm 2.12 (General Power Rule; 廣義冪法則)
If u(x) is a diff. function of x, then y =[u(x)
]nis also a diff.
function for any n ∈ R with
y ′ = n ·[u(x)
]n−1· u′(x).
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Example 8Find f ′(x) if f(x) = x
3√
x2 + 4= x
(x2 + 4)1/3.
Sol: From the Quotient Rule of Differentiation and the ChainRule, we see that
f ′(x) = 1 · (x2 + 4)1/3 − x · (1/3)(x2 + 4)−2/3(2x)(x2 + 4)2/3
=1
3(x2 + 4)−2/3 ·
[3(x2 + 4)− 2x2(x2 + 4)2/3
]=
1
3(x2 + 4)2/3· x2 + 12
(x2 + 4)2/3=
x2 + 12
3(x2 + 4)4/3.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 38/65
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Example 11 (1/2)Fid the derivative y ′.(a) y = cos 3x2 = cos(3x2).
(b) y = (cos 3)x2.
(c) y = cos(3x)2 = cos(9x2).
Sol: By the Chain Rule, we have(a) y ′ = (− sin 3x2) · (6x) = −6x sin(3x2).
(b) y ′ = (cos 3) · (2x) = (2 cos 3)x.
(c) y ′ = (− sin 9x2) · (18x) = −18x sin(9x2).
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 39/65
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Example 11 (2/2)(d) y = cos2 x = (cos x)2.
(e) y =√
cos x = (cos x)1/2.
Sol: From the Chain Rule, we see that(d) y ′ = 2(cos x)(− sin x) = −2sixx cos x.
(e) y ′ = 12(cos x)−1/2(− sin x) = − sin x
2√
cos x .
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 40/65
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Thm (Derivatives of eu and ln |u|)If u = u(x) is a diff. function of x, then(1) d
dx [ex] = ex ∀ x ∈ R, ddx [eu] = eu · u ′.
(2) ddx [ ln x ] = 1
x for x > 0, ddx [ ln u ] = u ′
u for u > 0.
(3) ddx [ ln |x| ] = 1
x for x = 0, ddx [ ln |u| ] = u ′
u for u = 0.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 41/65
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Example 13(b) Find y ′ = f ′(x) if y = f(x) = ln(x2 + 1).
Sol: If we let u = u(x) = x2 + 1 > 0 for x ∈ R, then
f ′(x) = ddx
[ln(x2 + 1)
]=
u ′
u =2x
x2 + 1∀ x ∈ R.
HomeworkPlease read Example 13 of Section 2.4 by yourself.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 42/65
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Example 15Differentiate the following function
f(x) = ln x(x2 + 1)2√2x3 − 1
∀ x ∈ (13√2,∞).
Sol: Firstly, it follows from Laws of Logarithm that
f(x) = ln[x(x2 + 1)2
]− ln
[(2x3 − 1)1/2
]= ln x + 2 ln(x2 + 1)− 1
2ln(2x3 − 1).
Thus, the first derivative of f is given by
f ′(x) = 1
x + 2( 2x
x2 + 1
)− 1
2
( 6x22x3 − 1
)=
1
x +4x
x2 + 1− 3x2
2x3 − 1∀ x ∈ (
13√2,∞).
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 44/65
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Def (函數 ax 和 loga x 的定義)Let 0 < a = 1.(1) The exponential function to the base a (以 a 為底的指數函數) is defined by
ax ≡ ex ln a ∀ x ∈ R.
(2) The logarithmic function to the base a (以 a 為底的對數函數) is defined by
loga x ≡ ln xln a ∀ x > 0.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 45/65
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Thm (函數 au 和 loga |u| 的微分公式)Let u = u(x) be a diff. function of x and 0 < a = 1.(1) d
dx [ax] = (ln a)ax ∀ x ∈ R, ddx [au] = (ln a)au · u ′.
(2) ddx
[loga x
]= 1
(ln a)x for x > 0, ddx
[loga u
]= u ′
(ln a)u for u > 0.
(3) ddx
[loga |x|
]= 1
(ln a)x for x = 0.
(4) ddx
[loga |u|
]= u ′
(ln a)u for u = 0.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 46/65
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Section 2.5Implicit Differentiation
(隱微分)
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 48/65
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Representations of a functionExplicit Form (顯式):
y = f(x),
where x is the independent variable (自變量) and y is thedependent variable (應變量).
Implicit Form (隱式):
F(x, y) = 0,
where we assume that y = y(x) is a diff. function of x.
[Q]: How to fined y ′ = dydx under the implicit form?
Ans: apply the technique of Implicit Differentiation!
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 49/65
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Example (補充題)
Find dydx if xy = 1.
Sol: Assume that y = y(x) is a diff. function of x. Thaen x and ysatisfy the following equation
F(x, y) ≡ xy − 1 = x · y(x)− 1 = 0.
Differentiating w.r.t. x on both sides of equality gives that
ddx [x · y(x)− 1] = y + x · dy
dx =ddx(0) = 0.
So, we have dydx = −y
x for x = 0.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 50/65
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Example 8 (利用隱微分求切線方程式)Find the tangent line to the graph of
x2(x2 + y2) = y2 or F(x, y) ≡ x4 + x2y2 − y2 = 0
at the point (√2/2,
√2/2).
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 51/65
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Solution of Example 8
Sol: Assume that y = y(x) is a diff. function of x. It follows fromthe Chain Rule that
4x3 + 2xy2 + 2x2y · dydx − 2y · dy
dx = 0.
Thus, the first derivative dydx is given by
dydx =
−2x(2x2 + y2)2y(x2 − 1)
=x(2x2 + y2)y(1− x2) .
At the given point, m = dydx
∣∣∣x=y=
√2
2
= 3/21/2 = 3, and hence the
equation of the tangent line at this point is
y −√2
2= 3
(x −
√2
2
)or y = 3x −
√2.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 52/65
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Logarithmic Differentiation (對數微分法)
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Section 2.6Derivatives of Inverse Functions
(反函數的微分法則)
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Thm 2.17 (反函數的可微分性)Let f be diff. on an open interval I. If f has an inverse functiong = f−1, then g is diff. at any x ∈ range(f) for which f ′(g(x)) = 0,with the derivative
g ′(x) = 1
f ′(g(x)) .
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 59/65
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Thm 2.18 (反三角函數的微分公式)Let u = u(x) be a diff. function of x. Then(1) d
dx sin−1 u = u ′√1−u2
, ddx cos−1 u = −u ′
√1−u2
.
(2) ddx tan−1 u = u ′
1+u2 ,ddx cot−1 u = −u ′
1+u2 .
(3) ddx sec−1 u = u ′
|u|√
u2−1, d
dx csc−1 u = −u ′
|u|√
u2−1.
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 63/65
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Thank you for your attention!
Hung-Yuan Fan (范洪源), Dep. of Math., NTNU, Taiwan Chapter 2, Calculus B 65/65
硕士研究生入学考试科目考试大纲一览表file.koolearn.com/20150818/1439870225295.pdf · 简单的变量代换求解的某些微分方程,可降价高阶微分方程,线性微分方程解的
VIII. 偏微分方程式 - Hiroshima University...88 1 VIII. 偏微分方程式 2 3 18.偏微分方程式と解析解 4 5 偏微分を含む微分方程式を偏微分方程式とよぶ。