Explore all topics
Start Free Trial
Need Help? Contact us
back arrowfull exam logo
search
ai logoChat with AI
Servicesarrow
Discoverarrow

Topics

Explore all topics
Discover more topics

Deck 2: Section 1: Limits and Their Properties

Full screen (f)
exit full mode
Question
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the distance traveled in 16 seconds by an object traveling at a constant velocity of 20 feet per second.

A) calculus, 320 ft
B) calculus, 340 ft
C) precalculus, 320 ft
D) calculus, 640 ft
E) precalculus, 640 ft
Use Space or
up arrow
down arrow
to flip the card.
Question
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 5. </strong> A) calculus, 2 B) precalculus, 0.2 C) calculus, 0.2 D) precalculus, 2 E) precalculus, 0.45 <div style=padding-top: 35px> where x and <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 5. </strong> A) calculus, 2 B) precalculus, 0.2 C) calculus, 0.2 D) precalculus, 2 E) precalculus, 0.45 <div style=padding-top: 35px> are measured in miles. Find the rate of change of elevation when x = 5. <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 5. </strong> A) calculus, 2 B) precalculus, 0.2 C) calculus, 0.2 D) precalculus, 2 E) precalculus, 0.45 <div style=padding-top: 35px>

A) calculus, 2
B) precalculus, 0.2
C) calculus, 0.2
D) precalculus, 2
E) precalculus, 0.45
Question
Use the rectangles in the following graph to approximate the area of the region bounded by <strong>Use the rectangles in the following graph to approximate the area of the region bounded by . </strong> A) 3.9082 B) 2.6055 C) 1.9541 D) 1.4656 E) 0.9770 <div style=padding-top: 35px> . <strong>Use the rectangles in the following graph to approximate the area of the region bounded by . </strong> A) 3.9082 B) 2.6055 C) 1.9541 D) 1.4656 E) 0.9770 <div style=padding-top: 35px>

A) 3.9082
B) 2.6055
C) 1.9541
D) 1.4656
E) 0.9770
Question
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the distance traveled in 20 seconds by an object moving with a velocity of <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the distance traveled in 20 seconds by an object moving with a velocity of feet per second.</strong> A) calculus, 162.4485 ft B) precalculus, 163.7985 ft C) calculus, 165.4777 ft D) precalculus, 165.4777 ft E) precalculus, 162.4485 ft <div style=padding-top: 35px> feet per second.

A) calculus, 162.4485 ft
B) precalculus, 163.7985 ft
C) calculus, 165.4777 ft
D) precalculus, 165.4777 ft
E) precalculus, 162.4485 ft
Question
Use the rectangles in the graph given below to approximate the area of the region bounded by <strong>Use the rectangles in the graph given below to approximate the area of the region bounded by Round your answer to three decimal places. </strong> A) 2.481 units<sup>2</sup> B) 6.371 units<sup>2</sup> C) 3.585 units<sup>2</sup> D) 6.872 units<sup>2</sup> E) 6.903 units<sup>2</sup> <div style=padding-top: 35px> Round your answer to three decimal places. <strong>Use the rectangles in the graph given below to approximate the area of the region bounded by Round your answer to three decimal places. </strong> A) 2.481 units<sup>2</sup> B) 6.371 units<sup>2</sup> C) 3.585 units<sup>2</sup> D) 6.872 units<sup>2</sup> E) 6.903 units<sup>2</sup> <div style=padding-top: 35px>

A) 2.481 units2
B) 6.371 units2
C) 3.585 units2
D) 6.872 units2
E) 6.903 units2
Question
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the area of the shaded region bounded by the triangle with vertices (0,0), (8,9), (17,0). <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the area of the shaded region bounded by the triangle with vertices (0,0), (8,9), (17,0). </strong> A) precalculus , 153 B) calculus , 229.5 C) precalculus , 76.5 D) precalculus , 229.5 E) calculus , 153 <div style=padding-top: 35px>

A) precalculus , 153
B) calculus , 229.5
C) precalculus , 76.5
D) precalculus , 229.5
E) calculus , 153
Question
Consider the length of the graph of <strong>Consider the length of the graph of Approximate the length of the curve by finding the sum of the lengths of four line segments, as shown in following figure. Round your answer to two decimal places. </strong> A) 6.11 B) 8.12 C) 5.66 D) 8.49 E) 7.11 <div style=padding-top: 35px> Approximate the length of the curve by finding the sum of the lengths of four line segments, as shown in following figure. Round your answer to two decimal places. <strong>Consider the length of the graph of Approximate the length of the curve by finding the sum of the lengths of four line segments, as shown in following figure. Round your answer to two decimal places. </strong> A) 6.11 B) 8.12 C) 5.66 D) 8.49 E) 7.11 <div style=padding-top: 35px>

A) 6.11
B) 8.12
C) 5.66
D) 8.49
E) 7.11
Question
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the area of the shaded region. <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the area of the shaded region. </strong> A) calculus , 11 B) precalculus , 11 C) precalculus , 13 D) calculus , 16 E) precalculus , 16 <div style=padding-top: 35px>

A) calculus , 11
B) precalculus , 11
C) precalculus , 13
D) calculus , 16
E) precalculus , 16
Question
Use the rectangles in the following graph to approximate the area of the region bounded by <strong>Use the rectangles in the following graph to approximate the area of the region bounded by . </strong> A) 0.7850 B) 1.5700 C) 3.1400 D) 1.1775 E) 1.0519 <div style=padding-top: 35px> . <strong>Use the rectangles in the following graph to approximate the area of the region bounded by . </strong> A) 0.7850 B) 1.5700 C) 3.1400 D) 1.1775 E) 1.0519 <div style=padding-top: 35px>

A) 0.7850
B) 1.5700
C) 3.1400
D) 1.1775
E) 1.0519
Question
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 4. </strong> A) precalculus, 0.08 B) calculus, 0.2 C) calculus, 0.64 D) calculus, 0.08 E) precalculus, 0.2 <div style=padding-top: 35px> where x and <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 4. </strong> A) precalculus, 0.08 B) calculus, 0.2 C) calculus, 0.64 D) calculus, 0.08 E) precalculus, 0.2 <div style=padding-top: 35px> are measured in miles. Find the rate of change of elevation when x = 4. <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 4. </strong> A) precalculus, 0.08 B) calculus, 0.2 C) calculus, 0.64 D) calculus, 0.08 E) precalculus, 0.2 <div style=padding-top: 35px>

A) precalculus, 0.08
B) calculus, 0.2
C) calculus, 0.64
D) calculus, 0.08
E) precalculus, 0.2
Unlock Deck
Sign up to unlock the cards in this deck!
Unlock Deck
Unlock Deck
1/10
auto play flashcards
Play
simple tutorial
Full screen (f)
exit full mode
Deck 2: Section 1: Limits and Their Properties
1
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the distance traveled in 16 seconds by an object traveling at a constant velocity of 20 feet per second.

A) calculus, 320 ft
B) calculus, 340 ft
C) precalculus, 320 ft
D) calculus, 640 ft
E) precalculus, 640 ft
precalculus, 320 ft
2
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 5. </strong> A) calculus, 2 B) precalculus, 0.2 C) calculus, 0.2 D) precalculus, 2 E) precalculus, 0.45 where x and <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 5. </strong> A) calculus, 2 B) precalculus, 0.2 C) calculus, 0.2 D) precalculus, 2 E) precalculus, 0.45 are measured in miles. Find the rate of change of elevation when x = 5. <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 5. </strong> A) calculus, 2 B) precalculus, 0.2 C) calculus, 0.2 D) precalculus, 2 E) precalculus, 0.45

A) calculus, 2
B) precalculus, 0.2
C) calculus, 0.2
D) precalculus, 2
E) precalculus, 0.45
precalculus, 0.2
3
Use the rectangles in the following graph to approximate the area of the region bounded by <strong>Use the rectangles in the following graph to approximate the area of the region bounded by . </strong> A) 3.9082 B) 2.6055 C) 1.9541 D) 1.4656 E) 0.9770 . <strong>Use the rectangles in the following graph to approximate the area of the region bounded by . </strong> A) 3.9082 B) 2.6055 C) 1.9541 D) 1.4656 E) 0.9770

A) 3.9082
B) 2.6055
C) 1.9541
D) 1.4656
E) 0.9770
1.9541
4
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the distance traveled in 20 seconds by an object moving with a velocity of <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the distance traveled in 20 seconds by an object moving with a velocity of feet per second.</strong> A) calculus, 162.4485 ft B) precalculus, 163.7985 ft C) calculus, 165.4777 ft D) precalculus, 165.4777 ft E) precalculus, 162.4485 ft feet per second.

A) calculus, 162.4485 ft
B) precalculus, 163.7985 ft
C) calculus, 165.4777 ft
D) precalculus, 165.4777 ft
E) precalculus, 162.4485 ft
Unlock Deck
Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
5
Use the rectangles in the graph given below to approximate the area of the region bounded by <strong>Use the rectangles in the graph given below to approximate the area of the region bounded by Round your answer to three decimal places. </strong> A) 2.481 units<sup>2</sup> B) 6.371 units<sup>2</sup> C) 3.585 units<sup>2</sup> D) 6.872 units<sup>2</sup> E) 6.903 units<sup>2</sup> Round your answer to three decimal places. <strong>Use the rectangles in the graph given below to approximate the area of the region bounded by Round your answer to three decimal places. </strong> A) 2.481 units<sup>2</sup> B) 6.371 units<sup>2</sup> C) 3.585 units<sup>2</sup> D) 6.872 units<sup>2</sup> E) 6.903 units<sup>2</sup>

A) 2.481 units2
B) 6.371 units2
C) 3.585 units2
D) 6.872 units2
E) 6.903 units2
Unlock Deck
Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
6
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the area of the shaded region bounded by the triangle with vertices (0,0), (8,9), (17,0). <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the area of the shaded region bounded by the triangle with vertices (0,0), (8,9), (17,0). </strong> A) precalculus , 153 B) calculus , 229.5 C) precalculus , 76.5 D) precalculus , 229.5 E) calculus , 153

A) precalculus , 153
B) calculus , 229.5
C) precalculus , 76.5
D) precalculus , 229.5
E) calculus , 153
Unlock Deck
Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
7
Consider the length of the graph of <strong>Consider the length of the graph of Approximate the length of the curve by finding the sum of the lengths of four line segments, as shown in following figure. Round your answer to two decimal places. </strong> A) 6.11 B) 8.12 C) 5.66 D) 8.49 E) 7.11 Approximate the length of the curve by finding the sum of the lengths of four line segments, as shown in following figure. Round your answer to two decimal places. <strong>Consider the length of the graph of Approximate the length of the curve by finding the sum of the lengths of four line segments, as shown in following figure. Round your answer to two decimal places. </strong> A) 6.11 B) 8.12 C) 5.66 D) 8.49 E) 7.11

A) 6.11
B) 8.12
C) 5.66
D) 8.49
E) 7.11
Unlock Deck
Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
8
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the area of the shaded region. <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. Find the area of the shaded region. </strong> A) calculus , 11 B) precalculus , 11 C) precalculus , 13 D) calculus , 16 E) precalculus , 16

A) calculus , 11
B) precalculus , 11
C) precalculus , 13
D) calculus , 16
E) precalculus , 16
Unlock Deck
Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
9
Use the rectangles in the following graph to approximate the area of the region bounded by <strong>Use the rectangles in the following graph to approximate the area of the region bounded by . </strong> A) 0.7850 B) 1.5700 C) 3.1400 D) 1.1775 E) 1.0519 . <strong>Use the rectangles in the following graph to approximate the area of the region bounded by . </strong> A) 0.7850 B) 1.5700 C) 3.1400 D) 1.1775 E) 1.0519

A) 0.7850
B) 1.5700
C) 3.1400
D) 1.1775
E) 1.0519
Unlock Deck
Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
10
Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 4. </strong> A) precalculus, 0.08 B) calculus, 0.2 C) calculus, 0.64 D) calculus, 0.08 E) precalculus, 0.2 where x and <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 4. </strong> A) precalculus, 0.08 B) calculus, 0.2 C) calculus, 0.64 D) calculus, 0.08 E) precalculus, 0.2 are measured in miles. Find the rate of change of elevation when x = 4. <strong>Decide whether the following problem can be solved using precalculus, or whether calculus is required. If the problem can be solved using precalculus, solve it. If the problem seems to require calculus, use a graphical or numerical approach to estimate the solution. A cyclist is riding on a path whose elevation is modeled by the function where x and are measured in miles. Find the rate of change of elevation when x = 4. </strong> A) precalculus, 0.08 B) calculus, 0.2 C) calculus, 0.64 D) calculus, 0.08 E) precalculus, 0.2

A) precalculus, 0.08
B) calculus, 0.2
C) calculus, 0.64
D) calculus, 0.08
E) precalculus, 0.2
Unlock Deck
Unlock for access to all 10 flashcards in this deck.
Unlock Deck
k this deck
locked card icon
Unlock Deck
Unlock for access to all 10 flashcards in this deck.
Examlex
Examlex
Work With Us
Policies
Download the App
Scan to downloadDownload the App
qr-code
Links
Links
Work With Us
Download the App

Scan to downloadDownload the App
qr-code

Copyright © 2025 Examlex LLC.
  • facebook-footer
  • instagram-footer
  • x-footer
  • tiktok
  • Linktree