(a) Answer The value of lim x → 4 ( g ( x ) + 3 ) is 6 . Explanation Given information: The values lim x → 4 f ( x ) = 0 and lim x → 4 g ( x ) = 3 . Calculation: Use the sum property for limit. lim x → a ( f ( x ) + g ( x ) ) = lim x → a ( f ( x ) ) + lim x → a ( g ( x ) ) Simplify the given limit. lim x → 4 ( g ( x ) + 3 ) = lim x → 4 g ( x ) + lim x → 4 3 = lim x → 4 g ( x ) + 3 Substitute 3 for lim x → 4 g ( x ) in the above expression. lim x → 4 ( g ( x ) + 3 ) = 3 + 3 = 6 Therefore, the value of lim x → 4 ( g ( x ) + 3 ) is 6 . (b) To determine To find: The value of lim x → 4 ( x f ( x ) ) . Answer The value of lim x → 4 ( x f ( x ) ) is 0 . Explanation Given information: The values lim x → 4 f ( x ) = 0 and lim x → 4 g ( x ) = 3 . Calculation: Use the product rule for limit. lim x → a ( f ( x ) ⋅ g ( x ) ) = lim x → a ( f ( x ) ) ⋅ lim x → a ( g ( x ) ) Simplify the given limit. lim x → 4 ( x f ( x ) ) = lim x → 4 ( x ) × lim x → 4 ( f ( x ) ) Substitute 4 for x and 0 for lim x → 4 ( f ( x ) ) in the above expression. lim x → 4 ( x f ( x ) ) = 4 × 0 = 0 Therefore, the value of lim x → 4 ( x f ( x ) ) is 0 . (c) To determine To find: The value of lim x → 4 ( g 2 ( x ) ) . Answer The value of lim x → 4 ( g 2 ( x ) ) is 9 . Explanation Given information: The values lim x → 4 f ( x ) = 0 and lim x → 4 g ( x ) = 3 . Calculation: Use the power rule for limit. lim x → a ( ( f ( x ) ) c ) = ( lim x → a ( f ( x ) ) ) c Simplify the given limit. lim x → 4 ( g 2 ( x ) ) = ( lim x → 4 ( g ( x ) ) ) 2 Substitute 3 for lim x → 4 ( g ( x ) ) in the above expression. lim x → 4 ( g 2 ( x ) ) = ( 3 ) 2 = 9 Therefore, the value of lim x → 4 ( g 2 ( x ) ) is 9 . (d) To determine To find: The value of lim x → 4 ( g ( x ) f ( x ) − 1 ) . Answer The value of lim x → 4 ( g ( x ) f ( x ) − 1 ) is − 3 . Explanation Given information: The values lim x → 4 f ( x ) = 0 and lim x → 4 g ( x ) = 3 . Calculation: Use the quotient rule for limit. lim x → a ( f ( x ) g ( x ) ) = lim x → a ( f ( x ) ) lim x → a ( g ( x ) ) Simplify the given limit. lim x → 4 ( g ( x ) f ( x ) − 1 ) = lim x → 4 ( g ( x ) ) lim x → 4 ( f ( x ) − 1 ) = lim x → 4 ( g ( x ) ) lim x → 4 f ( x ) − lim x → 4 1 = lim x → 4 ( g ( x ) ) lim x → 4 f ( x ) − 1 Substitute 0 for lim x → 4 ( f ( x ) ) and 3 for lim x → 4 ( g ( x ) ) in the above expression. lim x → 4 ( g ( x ) f ( x ) − 1 ) = 3 0 − 1 = 3 − 1 = − 3 Therefore, the value of lim x → 4 ( g ( x ) f ( x ) − 1 ) is − 3 .

Calculus 2012 Student Edition (by Finney/Demana/Waits/Kennedy)

4th Edition

ISBN: 9780133178579

Author: Ross L. Finney

Publisher: PEARSON

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Limits

When it comes to calculus, limits are considered to be a very important topic of discussion. The main importance of limit lies in expressing the value of a function as it gets closer to a certain value. Also, limits can help you to understand other topic…

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Question

Chapter 2.1, Problem 55E

(a)

To determine

To find: The value of limx→4(g(x)+3) .

(a)

Expert Solution

Answer to Problem 55E

The value of limx→4(g(x)+3) is 6 .

Explanation of Solution

Given information: The values limx→4f(x)=0 and limx→4g(x)=3 .

Calculation:

Use the sum property for limit.

limx→a(f(x)+g(x))=limx→a(f(x))+limx→a(g(x))

Simplify the given limit.

limx→4(g(x)+3)=limx→4g(x)+limx→43=limx→4g(x)+3

Substitute 3 for limx→4g(x) in the above expression.

limx→4(g(x)+3)=3+3=6

Therefore, the value of limx→4(g(x)+3) is 6 .

(b)

To determine

To find: The value of limx→4(xf(x)) .

(b)

Expert Solution

Answer to Problem 55E

The value of limx→4(xf(x)) is 0 .

Explanation of Solution

Given information: The values limx→4f(x)=0 and limx→4g(x)=3 .

Calculation:

Use the product rule for limit.

limx→a(f(x)⋅g(x))=limx→a(f(x))⋅limx→a(g(x))

Simplify the given limit.

limx→4(xf(x))=limx→4(x)×limx→4(f(x))

Substitute 4 for x and 0 for limx→4(f(x)) in the above expression.

limx→4(xf(x))=4×0=0

Therefore, the value of limx→4(xf(x)) is 0 .

(c)

To determine

To find: The value of limx→4(g2(x)) .

(c)

Expert Solution

Answer to Problem 55E

The value of limx→4(g2(x)) is 9 .

Explanation of Solution

Given information: The values limx→4f(x)=0 and limx→4g(x)=3 .

Calculation:

Use the power rule for limit.

limx→a((f(x))c)=(limx→a(f(x)))c

Simplify the given limit.

limx→4(g2(x))=(limx→4(g(x)))2

Substitute 3 for limx→4(g(x)) in the above expression.

limx→4(g2(x))=(3)2=9

Therefore, the value of limx→4(g2(x)) is 9 .

(d)

To determine

To find: The value of limx→4(g(x)f(x)−1) .

(d)

Expert Solution

Answer to Problem 55E

The value of limx→4(g(x)f(x)−1) is −3 .

Explanation of Solution

Given information: The values limx→4f(x)=0 and limx→4g(x)=3 .

Calculation:

Use the quotient rule for limit.

limx→a(f(x)g(x))=limx→a(f(x))limx→a(g(x))

Simplify the given limit.

limx→4(g(x)f(x)−1)=limx→4(g(x))limx→4(f(x)−1)=limx→4(g(x))limx→4f(x)−limx→41=limx→4(g(x))limx→4f(x)−1

Substitute 0 for limx→4(f(x)) and 3 for limx→4(g(x)) in the above expression.

limx→4(g(x)f(x)−1)=30−1=3−1=−3

Therefore, the value of limx→4(g(x)f(x)−1) is −3 .

Chapter 2.1, Problem 54E

Chapter 2.1, Problem 56E

Chapter 2 Solutions

Calculus 2012 Student Edition (by Finney/Demana/Waits/Kennedy)

Ch. 2.1 - Prob. 1QR Ch. 2.1 - Prob. 2QR Ch. 2.1 - Prob. 3QR Ch. 2.1 - Prob. 4QR Ch. 2.1 - Prob. 5QR Ch. 2.1 - Prob. 6QR Ch. 2.1 - Prob. 7QR Ch. 2.1 - Prob. 8QR Ch. 2.1 - Prob. 9QR Ch. 2.1 - Prob. 10QR

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