The quotient rule is a method of finding the integration of a function that is the quotient of two other functions for which derivatives exist.
By the Product Rule,
if f (x) and g(x) are differentiable functions, then
d/dx[f (x)g(x)]= f (x)g'(x) + g(x) f' (x).
Integrating on both sides of this equation,
∫[f (x)g'(x) + g(x) f '(x)]dx = f (x)g(x),
which may be rearranged to obtain
∫f (x)g'(x) dx = f (x)g(x) −∫g(x) f' (x) dx. (A)
Letting U = f (x) and V = g(x)
then differentiating it we get
dU = f '(x) dx and dV =g'(x) dx,
pluging these values in (A), we get
∫U dV = UV −∫V dU. (1).
By the Quotient Rule,
if f (x) and g(x) are differentiable functions, then
d/dx[f (x)/g(x)]= g(x) f '(x) − f (x)g'(x)/[g(x)]2 .
Integrating both sides of this equation, we get
[f (x)/g(x)]=∫g(x) f '(x) − f (x)g'(x)/[g(x)]2 dx.
That is,
f (x)/g(x)=∫f '(x)/g(x)dx -∫f (x)g'(x)/[g(x)]2 dx,
which may be rearranged to obtain
∫f '(x)g(x)dx = f (x)g(x)+∫f (x)g'(x)/[g(x)]2 dx. (B)
Letting u = g(x) and v = f (x) and then differentiating it , we get
du = g'(x) dx and
dv = f '(x) dx,
we obtain a Quotient Rule Integration by Parts formula:
plugging values of u , v , du and dv in B we get
∫dv/u= v/u+∫(v/u²) du. (2)
quotient rule for integration-Application
∫[sin(x−½)/x²] dx.
Let
u = x½, du=1/2(x-½)
v=2cos(x-½),dv = sin(x−1/2)/x³/²
Then
∫sin(x−½)/x² dx = 2 cos(x-½)/x½+∫2 cos(x-½)/x• 1/2(x-½) dx
= 2 cos(x-½)/x½− ∫2cos(x-½) ·•[−(x-³/²)/2]dx
= 2 cos(x-½)/x½− 2 sin(x-½) + C,
which may be easily verified as correct.
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quotient rule for integration -Illustration
The Quotient Rule Integration by Parts formula (2) results from applying the
standard Integration by Parts formula (1) to the integral
Let ∫dv/u
with
U = 1/u,V = v,then differentiating ,we get
dU = − 1/u² du,dV=dv
plugging these values
∫dv/u=∫U dV
= UV −∫V dU
= 1/u·( v) −∫v (− 1/u²)du
= v/u+∫v/u² du
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