Single Variable Calculus: Early Transce...1st EditionWilliam L. Briggs, Lyle Cochran, Bernard Gillett Publisher: PEARSONISBN: 9780133941760
Single Variable Calculus: Early Transce...
Solutions for Single Variable Calculus: Early Transcendentals & Student Solutions Manual, Single Variable for Calculus: Early Transcendentals & MyLab Math -- Valuepack Access Card Package
Problem 1E:
Suppose s(t) is the position of an object moving along a line at time t 0. What is the average...Problem 2E:
Suppose s(t) is the position of an object moving along a line at time t 0. Describe a process for...Problem 3E:
What is the slope of the secant Line that passes through the points (a, f(a)) and (b, f(b)) on the...Problem 4E:
Describe a process for finding the slope of the line tangent to the graph of f at (a, f(a)).Problem 5E:
Describe the parallels between finding the instantaneous velocity of an object at a point in time...Problem 6E:
Graph the parabola f(x) = x2. Explain why the secant lines between the points (a, f(a)) and (a,...Problem 7E:
Basic Skills 7. Average velocity The function s(t) represents the position of an object at time t...Problem 8E:
Average velocity The function s(t) represents the position of an object at time t moving along a...Problem 9E:
Average velocity The position of an object moving vertically along a line is given by the function...Problem 10E:
Average velocity The position of an object moving vertically along a line is given by the function...Problem 11E:
Average velocity The table gives the position s(t) of an object moving along a line at time t, over...Problem 12E:
Average velocity The graph gives the position s(t) of an object moving along a line at time t, over...Problem 13E:
Average velocity Consider the position function s(t) = 16t2 + 100t representing the position of an...Problem 14E:
Average velocity Consider the position function s(t) = sin t representing the position of an object...Problem 15E:
Instantaneous velocity Consider the position function s(t) = 16t2 + 128t (Exercise 9). Complete the...Problem 17E:
Instantaneous velocity The following table gives the position s(t) of an object moving along a line...Problem 18E:
Instantaneous velocity The following table gives the position s(t) of an object moving along a line...Problem 19E:
Instantaneous velocity Consider the position function s(t) = 16t2 + 100t. Complete the following...Problem 20E:
Instantaneous velocity Consider the position function s(t) = 3 sin t that describes a block bouncing...Problem 21E:
Instantaneous velocity For the following position functions, make a table of average velocities...Problem 22E:
Instantaneous velocity For the following position functions, make a table of average velocities...Problem 23E:
Instantaneous velocity For the following position functions, make a table of average velocities...Problem 24E:
Instantaneous velocity For the following position functions, make a table of average velocities...Problem 25E:
Slopes of tangent lines For the following functions, make a table of slopes of secant lines and make...Problem 26E:
Slopes of tangent lines For the following functions, make a table of slopes of secant lines and make...Problem 27E:
Slopes of tangent lines For the following functions, make a table of slopes of secant lines and make...Problem 28E:
Slopes of tangent lines For the following functions, make a table of slopes of secant lines and make...Problem 29E:
Tangent lines with zero slope a. Graph the function f(x) = x2 4x + 3. b. Identify the point (a,...Problem 30E:
Tangent lines with zero slope a. Graph the function f(x) = 4 x2. b. Identify the point (a, f(a)) at...Problem 31E:
Zero velocity A projectile is fired vertically upward and has a position given by s(t) = 16t2 + 128t...Browse All Chapters of This Textbook
Chapter 1 - FunctionsChapter 1.1 - Review Of FunctionsChapter 1.2 - Representing FunctionsChapter 1.3 - Inverse, Exponential, And Logarithmic FunctionsChapter 1.4 - Trigonometric Functions And Their InversesChapter 2 - LimitsChapter 2.1 - The Idea Of LimitsChapter 2.2 - Definitions Of LimitsChapter 2.3 - Techniques For Computing LimitsChapter 2.4 - Infinite Limits
Chapter 2.5 - Limits At InfinityChapter 2.6 - ContinuityChapter 2.7 - Precise Definitions Of LimitsChapter 3 - DerivativesChapter 3.1 - Introducing The DerivativesChapter 3.2 - Working With DerivativesChapter 3.3 - Rules Of DifferentiationChapter 3.4 - The Product And Quotient RulesChapter 3.5 - Derivatives Of Trigonometric FunctionsChapter 3.6 - Derivatives As Rates Of ChangeChapter 3.7 - The Chain RuleChapter 3.8 - Implicit DifferentiationChapter 3.9 - Derivatives Of Logarithmic And Exponential FunctionsChapter 3.10 - Derivatives Of Inverse Trigonometric FunctionsChapter 3.11 - Related RatesChapter 4 - Applications Of The DerivativeChapter 4.1 - Maxima And MinimaChapter 4.2 - What Derivatives Tell UsChapter 4.3 - Graphing FunctionsChapter 4.4 - Optimization ProblemsChapter 4.5 - Linear Approximation And DifferentialsChapter 4.6 - Mean Value TheoremChapter 4.7 - L'hopital's RuleChapter 4.8 - Newton's MethodChapter 4.9 - AntiderivativesChapter 5 - IntegrationChapter 5.1 - Approximating Areas Under CurvesChapter 5.2 - Definite IntegralsChapter 5.3 - Fundamental Theorem Of CalculusChapter 5.4 - Working With IntegralsChapter 5.5 - Substitution RuleChapter 6 - Applications Of IntegrationChapter 6.1 - Velocity And Net ChangeChapter 6.2 - Regions Between CurvesChapter 6.3 - Volume By SlicingChapter 6.4 - Volume By ShellsChapter 6.5 - Length Of CurvesChapter 6.6 - Surface AreaChapter 6.7 - Physical ApplicationsChapter 6.8 - Logarithmic And Exponential Functions RevisitedChapter 6.9 - Exponential ModelsChapter 6.10 - Hyperbolic FunctionsChapter 7 - Integration TechniquesChapter 7.1 - Basic ApproachesChapter 7.2 - Integration By PartsChapter 7.3 - Trigonometric IntegralsChapter 7.4 - Trigonometric SubstitutionsChapter 7.5 - Partial FractionsChapter 7.6 - Other Integration StrategiesChapter 7.7 - Numerical IntegrationChapter 7.8 - Improper IntegralsChapter 7.9 - Introduction To Differential EquationsChapter 8 - Sequences And Infinite SeriesChapter 8.1 - An OverviewChapter 8.2 - SequencesChapter 8.3 - Infinite SeriesChapter 8.4 - The Divergence And Integral TestsChapter 8.5 - The Ratio, Root, And Comparison TestsChapter 8.6 - Alternating SeriesChapter 9 - Power SeriesChapter 9.1 - Approximating Functions With PolynomialsChapter 9.2 - Properties Of Power SeriesChapter 9.3 - Taylor SeriesChapter 9.4 - Working With Taylor SeriesChapter 10 - Parametric And Polar CurvesChapter 10.1 - Parametric EquationsChapter 10.2 - Polar CoordinatesChapter 10.3 - Calculus In Polar CoordinatesChapter 10.4 - Conic SectionsChapter A - Algebra Review
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SINGLE VARBLE EARLY TRNS B.U. PKG
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ISBN: 9781269986274
Single Variable Calculus: Early Transcendentals (2nd Edition) - Standalone book
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ISBN: 9780321954237
Single Variable Calculus: Early Transcendentals Plus MyLab Math with Pearson eText -- Access Card Package (2nd Edition) (Briggs/Cochran/Gillett Calculus 2e)
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Single Variable Calculus: Early Transcendentals
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Calculus, Single Variable: Early Transcendentals (3rd Edition)
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Single Variable Calculus: Early Transcendentals, Books a la Carte, and MyLab Math with Pearson eText -- Title-Specific Access Card Package (3rd Edition)
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Single Variable Calculus Format: Unbound (saleable)
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Pearson eText Calculus: Early Transcendentals -- Instant Access (Pearson+)
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Calculus: Single Variable, Early Transcendentals and MyLab Math with Pearson eText -- Title-Specific Access Card Package (3rd Edition) (Briggs, Cochran, Gillett & Schulz, Calculus Series)
3rd Edition
ISBN: 9780134996714
MyLab Math with Pearson eText -- 24 Month Access -- for Calculus with Integrated Review
3rd Edition
ISBN: 9780135243435
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