- Chapter 1: FUNCTIONS AND MODELS 10
- Chapter 10: Parametric Equations and Polar Coordinates
- Chapter 11: Infinite sequence and series
- Chapter 2: Limits and Derivatives
- Chapter 3: Derivatives of Polynomials and Exponential Functions
- Chapter 4: Maximum and Minimum Values
- Chapter 5: Integrals
- Chapter 6: Applications of Integration
- Chapter 7: Techniques of Integration
- Chapter 8: Further Applications of Integration
- Chapter 9: Differential Equations
Single Variable Calculus: Early Transcendentals (Available 2010 Titles Enhanced Web Assign) 6th Edition - Solutions by Chapter
Full solutions for Single Variable Calculus: Early Transcendentals (Available 2010 Titles Enhanced Web Assign) | 6th Edition
Single Variable Calculus: Early Transcendentals (Available 2010 Titles Enhanced Web Assign) | 6th Edition - Solutions by ChapterGet Full Solutions
Angle of depression
The acute angle formed by the line of sight (downward) and the horizontal
A sequence of equal periodic payments.
A function is bounded below if there is a number b such that b ? ƒ(x) for all x in the domain of f.
A limaçon whose polar equation is r = a ± a sin ?, or r = a ± a cos ?, where a > 0.
A relationship between two variables in which the values of the response variable are directly affected by the values of the explanatory variable
The graph of the parametric equations
The left side of u(v + w) = uv + uw.
A visible representation of a numerical or algebraic model.
Inverse relation (of the relation R)
A relation that consists of all ordered pairs b, a for which a, b belongs to R.
Length of a vector
See Magnitude of a vector.
A function that can be written in the form ƒ(x) = mx + b, where and b are real numbers
Linear inequality in two variables x and y
An inequality that can be written in one of the following forms: y 6 mx + b, y … mx + b, y 7 mx + b, or y Ú mx + b with m Z 0
NINT (ƒ(x), x, a, b)
A calculator approximation to ?ab ƒ(x)dx
Partial fraction decomposition
See Partial fractions.
A function ƒ for which there is a positive number c such that for every value t in the domain of ƒ. The smallest such number c is the period of the function.
Quotient rule of logarithms
logb a R S b = logb R - logb S, R > 0, S > 0
See Viewing window.
Re-expression of data
A transformation of a data set.
See Conversion factor.