Test your basic knowledge |

AP Calculus Vocab

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. A solution of the equation f(x)=0 is a zero of the function f or a root of the equation
zero of a function
constant function
linear approximation
axis of symmetry

2. In integrating composite function - either using pattern recognition or change of variables to perform the integration
integration by substitution
second derivative test
arccosine function
separable differential equation

3. Zero of a function; a solution of the equation f(x)=0 is a zero of the function f or a root of the equation or an x-intercept of the graph
related rates
chain rule
secant line
root of an equation

4. The vertical axis of the Cartesian coordinate system
y-axis
limit of integration
region (in a plane)
local extrema

5. The function that is integrated in an integral
closed interval [a -b]
minimum
integrand
linear approximation

6. The differentiation of an implicit function with respect to the independent variable
axis of rotation
implicit differentiation
secant line
first derivative test

7. Having an increasing derivative as the independent variable increases - having a positive second derivative
coefficient
trapezoidal rule
arccosine function
concave up

8. Either of the endpoints of an interval over which a definite integral is to be evaluated
inflection point
minimum
constant function
limit of integration

9. If h(x)=f(x)*g(x) then h'(x)=f(x)g'(x)+g(x)f'(x)
product rule
acceleration
relative minimum
separable differential equation

10. A connected subset of two-dimensional space - such as the set of points (x -y) enclosed by equations of functions and boundary points
arcsine function
instantaneous velocity
cosecant function
region (in a plane)

11. Slope between two points on a function
zero of a function
integrable function
average rate of change
product rule

12. The value that the function is approaching as x approaches a given value; the left- and right-hand limits must agree
integrable function
limit
maximum
root of an equation

13. If f'(c)=0 and f''(c)>0 - then f has a local maximum at x=c. if f'(c)=0 and f''(c)<0 - then f has a local minimum at x=c.
solid of revolution
tangent line
integration by substitution
second derivative test

14. Having a decreasing derivative as the independent variable increases; having a negative second derivative
middle sum
concave down
separable differential equation
critical value

15. A segment from the center of the circle to a point on the circle
root of an equation
radius of a circle
second derivative
rate of change

16. A function that is defined by applying different formulas to different parts of its domain
radius of a circle
local linearization
piecewise-defined function
velocity

17. The inverse of the cosine function
speed
arccosine function
average rate of change
maximum

18. A line around which a geometric figure is symmetrical
first derivative test
discontinuity
integrand
axis of symmetry

19. The inverse of the sine function
critical value
y-intercept
second derivative
arcsine function

20. An indefinite integral. an arbitrary constant '+c' is included
tangent line
antiderivative
piecewise-defined function
y-axis

21. A multiplicative factor in some term of an expression (or of a series); it is usually a number - but in any case does not involve any variables of the expression
odd function
piecewise-defined function
speed
coefficient

22. The function y=lnx is the inverse of the exponential function y=e^x
natural logarithm
first derivative test
local linearization
dy/dx (Leibniz notation)

23. Zooming in at a point on the graph of a function until the function approaches the tangent line at that point
local linearization
root of an equation
chain rule
separable differential equation

24. Approximating the value of a function by using the equation of the tangent line at a point close to the desired point
closed interval [a -b]
linear approximation
cross-sectional area
right-hand limit

25. A line perpendicular to a tangent line at the point of tangency
inflection point
normal line
base (exponential and logarithmic)
origin

26. A differential equation y'=f(x -y) in which f can be expressed as a product of a function of x and a function of y
right-hand sum
constant of integration
maximum
separable differential equation

27. A function f that gives the position f(t) of a body on a coordinate axis at time t
position function
right-hand limit
limit of integration
local extrema

28. The process by which an antiderivative is calculated
implicit differentiation
right-hand sum
integration
radius of a circle

29. A plane geometric configuration formed by cutting a given figure with a plane which is at right angles to an axis of the figure
root of an equation
cross-sectional area
continuity at a point
differentiation

30. The number which - when raised to the power of a given logarithm - produces a given number
inflection point
concave up
base (exponential and logarithmic)
instantaneous rate of change

31. A function that can be expressed in the form f(x)=mx+b
constant of integration
minimum
linear function
speed

32. The absolute value or magnitude of velocity
absolute minimum
speed
prime notation
instantaneous rate of change

33. A function such that the following is true
instantaneous velocity
continuity on an interval
continuous function
prime notation

34. A point where a function changes concavity; also - where the second derivative changes signs
inflection point
coefficient
secant line
axis of symmetry

35. The horizontal axis of the Cartesian coordinate system
x-axis
antiderivative
cross-sectional area
arcsine function

36. A line through two points on the curve
critical point
separable differential equation
velocity
secant line

37. In periodic functions - the height of the function at the maximum to the middle line
differentiation
extrenum
cosecant function
amplitude

38. A rectangular sum of the area under a curve where the domain is divided into sub-intervals and the height of each rectangle is the function value at the left-most point of the sub-interval
left-hand sum
limit of integration
critical value
trapezoidal rule

39. An arbitrary constant term in the expression of the indefinite integral of a function
constant of integration
linear approximation
sine function
critical value

40. Local maximums of minimums of a function
position function
minimum
slope
local extrema

41. A function that is continuous on both the left and right side at that point
prime notation
continuity at a point
relative minimum
acceleration

42. The derivative of the first derivative
trapezoidal rule
second derivative
piecewise-defined function
antidifferentiation

43. Any function closely related to the exponential function - and in particular y=a^x - for any a
product rule
exponential function
indefinite integral
closed interval [a -b]

44. The rate of change of the position function occuring as a limit as a time interval approaches zero; the derivative of the position function
origin
instantaneous velocity
indefinite integral
optimization

45. Notation used for the first derivative of a function
integration by substitution
cross-sectional area
dy/dx (Leibniz notation)
rate of change

46. The steepness of a line; the ratio of the rise of a line divided by the run of a line between any two points; the tangent of the angle between the direction of a line and the x-axis
first derivative test
solid of revolution
slope
definite integral

47. The reciprocal of the cosine function
secant function
root of an equation
velocity
zero of a function

48. f(-x)= -f(x)
exponential function
odd function
dy/dx (Leibniz notation)
tangent line

49. The point (0 -0) in the Cartesian coordinate plane
local linearization
origin
dy/dx (Leibniz notation)
decreasing on an interval

50. The amount of change divided by the time it takes
arccosine function
arctangent function
rate of change
secant function