#9; तिला ो SECTION 3.2 The Product and Quotient Rules 187 EXAMPLE 5 Find an equation of the tangent line to the curve y = e*/(1 + x²) at the point (1, e). SOLUTION According to the Quotient Rule, we have (1 + x') (e*) – e* dx (1 + x²) dx dy dx (1 + x?)? (1 + x²)e* - e*(2x) e*(1 – 2x + x²) (1 + x?)² (1 + x²)² e*(1 – x)? (1 + x²)² %3D So the slope of the tangent line at (1, ze) is dy dx x=1 .5 This means that the tangent line at (1, e) is horizontal and its equation is y =e. See %3D Figure 4. Notice that the function is increasing and crosses its tangent line at (1, 5e). NOTE Don't use the Quotient Rule every time you see a quotient. Sometimes it's easier to rewrite a quotient first to put it in a form that is simpler for the purpose of dif- ferentiation. For instance, although it is possible to differentiate the function 1.

Calculus: Early Transcendentals
8th Edition
ISBN:9781285741550
Author:James Stewart
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Chapter1: Functions And Models
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Problem 1RCC: (a) What is a function? What are its domain and range? (b) What is the graph of a function? (c) How...
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This is an example from the text. Can you show me how to get the slope? I do not fully understand ((dy)/(dx))|x=1 =0...

#9;
तिला
ो
SECTION 3.2
The Product and Quotient Rules
187
EXAMPLE 5 Find an equation of the tangent line to the curve y = e*/(1 + x²) at
the point (1, e).
SOLUTION According to the Quotient Rule, we have
(1 + x')
(e*) – e*
dx
(1 + x²)
dx
dy
dx
(1 + x?)?
(1 + x²)e* - e*(2x)
e*(1 – 2x + x²)
(1 + x?)²
(1 + x²)²
e*(1 – x)?
(1 + x²)²
%3D
So the slope of the tangent line at (1, ze) is
dy
dx
x=1
.5
This means that the tangent line at (1, e) is horizontal and its equation is y =e. See
%3D
Figure 4. Notice that the function is increasing and crosses its tangent line at (1, 5e).
NOTE Don't use the Quotient Rule every time you see a quotient. Sometimes it's
easier to rewrite a quotient first to put it in a form that is simpler for the purpose of dif-
ferentiation. For instance, although it is possible to differentiate the function
1.
Transcribed Image Text:#9; तिला ो SECTION 3.2 The Product and Quotient Rules 187 EXAMPLE 5 Find an equation of the tangent line to the curve y = e*/(1 + x²) at the point (1, e). SOLUTION According to the Quotient Rule, we have (1 + x') (e*) – e* dx (1 + x²) dx dy dx (1 + x?)? (1 + x²)e* - e*(2x) e*(1 – 2x + x²) (1 + x?)² (1 + x²)² e*(1 – x)? (1 + x²)² %3D So the slope of the tangent line at (1, ze) is dy dx x=1 .5 This means that the tangent line at (1, e) is horizontal and its equation is y =e. See %3D Figure 4. Notice that the function is increasing and crosses its tangent line at (1, 5e). NOTE Don't use the Quotient Rule every time you see a quotient. Sometimes it's easier to rewrite a quotient first to put it in a form that is simpler for the purpose of dif- ferentiation. For instance, although it is possible to differentiate the function 1.
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