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CHAPTER 1
SUCCESSIVE DIFFERENTIATION AND LEIBNITZ’S THEOREM
1.1 Introduction
Successive Differentiation is the process of differentiating a given function successively
times and the results of such differentiation are called successive derivatives. The
higher order differential coefficients are of utmost importance in scientific and
engineering applications.
Let be a differentiable function and let its successive derivatives be denoted by
.
Common notations of higher order Derivatives of
1st Derivative: or or or
or
2nd
Derivative: or or or
or
⋮
Derivative: or or or
or
1.2 Calculation of nth Derivatives
i. Derivative of
Let y =
⋮
ii. Derivative of , is a
Let y =
⋮
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iii. Derivative of
Let
⋮
iv. Derivative of Let
⋮
Similarly if
v. Derivative of Let
Putting
Similarly
⋮
where and
∴
Similarly if
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Summary of Results
Function Derivative
y = =
y =
=
=
=
y =
y =
Example 1 Find the derivative of
Solution: Let
Resolving into partial fractions
=
=
∴ =
⇒ = !
Example 2 Find the derivative of
Solution: Let
=
(sin10 + cos2 )
∴ =
Example 3 Find derivative of
Solution: Let y =
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=
=
=
=
=
∴
Example 4 Find the derivative of
Solution: Let =
∴
Example 5 Find the derivative of
Solution: Let
Now
–
–
–
⇒
∴
Example 6 If , prove that
Solution:
∴ =
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=
=
=
=
=
and
Example 7 Find the derivative of
Solution: Let
⇒
=
=
=
=
=
Differentiating above times w.r.t. x, we get
Substituting such that
⇒
Using De Moivre’s theorem, we get
where
Example 8 Find the derivative of
Solution: Let
=
where =
and =
Resolving into partial fractions
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Differentiating times w.r.t. , we get
Substituting such that
Using De Moivre’s theorem, we get
where
Example 9 If , show that
Solution:
⇒
∴
Example 10 If , show that
Solution:
⇒
=
=
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⇒ ( )
= 1
Differentiating both sides w.r.t. , we get
( )
+
= 0
⇒
Exercise 1 A
1. Find the derivative of
Ans.
2. Find the derivative of
Ans.
3. If , , show that
4. If , show that
5. If
, find i.e. the derivative of
Ans.
where
6. If , find i.e. the derivative of
Ans.
7. Find differential coefficient of
Ans. =
8. If y =
, show that =
9. If
, show that =
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1.2 LEIBNITZ'S THEOREM
If and are functions of such that their derivatives exist, then the derivative of their product is given by
where and represent derivatives of and respectively.
Example11 Find the derivative of
Solution: Let and
Then
and
By Leibnitz’s theorem, we have
⇒
Example 12 Find the derivative of
Solution: Let and
Then
By Leibnitz’s theorem, we have
⇒
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Example 13 If , show that
= 0
Solution: Here
⇒
⇒
Differentiating both sides w.r.t. , we get
⇒
=
⇒
Using L z’s theorem, we get
⇒
⇒
Example 14 If )
Prove that
Solution:
⇒
⇒
Differentiating both sides w.r.t. , we get
⇒
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Using Leibnitz’s theorem
⇒
⇒
Example 15 If , show that . Also find
Solution: Here ...…①
⇒
……②
⇒
⇒
⇒ = ……③
⇒ (1-
Differentiating w.r.t. , we get
⇒
Usi L z’ h r , we get
⇒
⇒ ……④
Putting in ①,②and ③
and
Putting in ④
Putting in the above equation, we get
=
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= 0
=
⋮
⇒
Example 16 If show that . Also find .
Solution: Here …①
⇒
……②
⇒ =
Differentiating above equation w.r.t. , we get
⇒ ……③
Differentiating above equation times w.r.t. u L z’ h r w
⇒
⇒ ……④
To find Putting in ①, ②and ③
and
Also putting in ,we get
Putting in the above equation, we get
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=
⋮
⇒
Example 17 If , show that
. Also find
Solution: Here ..…①
⇒
……②
⇒ ……③
Differentiating equation ③ times w.r.t. u L z’ theorem
⇒
⇒ ……④
To find Putting in ①, ②and ③, we get
and
Also putting in ④,we get
Putting in the above equation, we get
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=
= 0
=
⋮
⇒ and
Example18 If show that Also find
Solution: Here ..…①
⇒
……②
Squaring both the sides, we get
⇒
Differentiating the above equation w.r.t. , we get
⇒ ……③
Differentiating the above equation times w.r.t. u L z’ h r w
⇒
⇒ ……④
To find Putting in ①, ②and ③, we get
and
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Also putting in ④,we get
Putting in the above equation, we get
=
=
= 0
⋮
⇒
Exercise 1 B
1 .Find , if
Ans.
2. Find , if
Ans.
3. If
, prove that
4. If ), prove that
5. If
, prove that
6 If show that . Also find .
Ans. and
7. If , show that . Also find .
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8. If prove that