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AP Calculus Ab

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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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 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 right-most point of the sub-interval
right hand sum
non removable discontinuity
absolute minimum
related rates

2. Series from n=0 to infinity of c_n(x-a)^n where a is it's center and c_n is a coefficient.
infinite limit
concave up
power series
differentiation

3. When an absolute maximum or minimum occurs at the endpoint of the interval for which the function is defined
first derivative test
domain
endpoint extremum
bounded below

4. If f(x) is differentiable over (a -b) and continuous on [a -b] and f(a) = f(b) - then there exists c on (a -b) such that f'(c) = 0.

5. A determining or characteristic element; a factor that shapes the total outcome; a limit - boundary
complex number
axis of symmetry
limit at infinity
parameter

6. A procedure for finding the derivative of y with respect to x when the function relationship is defined implicitly
implicit differentiation
bounded
bounded below
initial condition

7. If f is continuous at x = a and lim f'(x) (from the left) = lim f'(x) (from the right) - then f is differentiable at x = a
differentiability
domain
differentiation
distance formula

8. Decay: y=ab^x where a >0 and 0<b<1 - Growth: y=ab^x where a>0 and b>1
dummy variable of integration
cosecant function
complex number
exponential growth and decay

9. The behavior of the graph of a function as x approaches positive infinity or negative infinity
constant function
definite integral
end behavior
Antidifferentiation- check

10. T = ?X / 2 (yo + 2y1 + 2y2 ... + 2y + y) - A method of approximating to an intergral as the limit of a sum of areas of trapezoids. Can be done by averaging a left hand sum and a right hand sum
trapezoidal rule
concave up
differential equation
absolute minimum

11. A function that is continuous at every point on the interval
differentiation
continuity on an interval
right hand limit
logarithmic function

12. A method for finding integrals. Using the fundamental theorem of calculus often requires finding an antiderivative.
differentiability
instantaneous velocity
law of cosine
integration by substitution

13. A point where a function changes concavity; also - where the second derivative changes signs
Rolle's Theorem
inflection point
differentiation
continuity on an interval

14. A function is locally linear at x = c if the graph fo the function looks more and more like the tangent to the graph as one zooms in on the point (c - f(c))
extreme value theorem
integrand
limit at infinity
local linearity

15. A function that is not algebraic; examples are: trigonometric - inverse trigonometric - exponential and logarithmic funtctions
even function
trapezoidal rule
integrand
transcendental function

16. The maximum distance that the particles of a wave's medium vibrate from their rest position
amplitude
endpoint extremum
continuous function
average rate of change

17. The inverse of an eponential function
decay model
absolute minimum
bounded above
logarithmic function

18. The limit of f as x approaches c from the right
left hand sum
piecewise defined function
right hand limit
domain

19. A method of representing the location of a point using an ordered pair of real numbers of the form (x -y)
numerical derivative
cartesian coordinate system
differentiability
extreme value theorem

20. sinA/a=sinB/b=sinC/c
right hand sum
law of sines
constant of integration
removable discontinuity

21. Intervals in which the second derivative is positive
perpendicular curves
non removable discontinuity
concave up
linear approximation

22. A function whose rule is given by a fraction whose numerator and denominator are polynomials and whose denominator is not 0
absolute value
rational function
limit of integration
endpoint extremum

23. The rate at which velocity changes over time; an object accelerates if its speed - direction - or both change
first derivative test
acceleration
numerical derivative
law of cosine

24. Any value in the domain where either the function is not differentiable or its derivative is 0.
left hand limit
related rates
order of a derivative
critical point

25. When testing critical values - if the first derivative changes from negative to zero to positive - then that critical value is a local minimum of the function. If the first derivative changes from positive to zero of negative - then that critical val
first derivative test
cosecant function
exponential growth and decay
cartesian coordinate system

26. If f is continuous on [a -b] then at some point - c in [a -b] - f(c)= (1/(a-b))*?f(x)dx (with bounds a -b)
constant of integration
mean value theorem for definite integrals
differential equation
limit at infinity

27. The smallest y-value of the function
partition of an interval
extremum
initial condition
absolute minimum

28. A function that is continuous on both the left and right side at that point
continuity at a point
end behavior
cosecant function
average rate of change

29. A straight line that is the limiting value of a curve
continuous function
cross sectional area
first derivative test
asymptote

30. A function that possesses a finite integral; the function must be continuous on the interval of integration
definite integral
right hand limit
integrable function
parameter

31. The rate of change of a function occurring at or associated with a given instant - or as a limit as a time interval approaches zero; the derivative
non removable discontinuity
continuity at a point
second derivative test
instantaneous rate of change

32. N(1-r)^x
exponential function
transcendental function
decay model
left hand sum

33. A basic definition in calculus f(x+h)-f(x)/h h doesn't equal 0
difference quotient
implicit differentiation
inflection point
exponential function

34. If y=f(x) is continuous at every point of the close interval [a -b] and differentiable at every point of its interior (a -b) - then there is at least one point c in (a -b) at which f'(c)= [f(b)-f(a)]/(b-a)
leibniz notation
differential
Mean Value theorem for derivatives
order of a derivative

35. The integral of a rate of change is called the total change: ?(from a to b) F'(x)dx = F(b)-F(a) -find anti-derivatives
Total change Theorem
implicit differentiation
infinite limit
leibniz notation

36. A given value of x and f(x) used to find the constant of integration
instantaneous rate of change
normal line
antiderivative
initial condition

37. An approximation of the derivative of a function using a numerical algorithm numerical integration - an approximation of the integral of a function using a numerical algorithm oddfunction- f(-x)=-f(x)
integrand
numerical derivative
root of an equation
logarithm laws

38. A function whose dependent variable satisfies a polynomial relationship with one or more independent variables
perpendicular curves
continuous function
Algebraic function
integrable function

39. If there is some number B that is greater than or equal to every number in the range of f
Mean Value theorem for derivatives
amplitude
bounded above
critical point

40. An undetermined constant added to every result of integration (the added +c)
left hand sum
initial condition
constant of integration
bounded below

41. Graph is symmetrical with respect to the origin; f(-x)=-f(x)
asymptote
differentiability
domain
odd function

42. logb mn = logbm + logb n - logb m/n = logb m - logb n - logb mn = n logb m - logb b = 1 - logb 1 = 0
endpoint extremum
logarithm laws
integration by substitution
first derivative test

43. (geometry)A curve generated by the intersection of a plane or circular cone
endpoint extremum
acceleration
parameter
conic section

44. Limit of an average velocity - as the time interval gets smaller and smaller. Let s (t) be the position of an object at time t. The instantaneous velocity at t = a is defined as lim(h goes to 0) [s(a+h)-s(a)] / h
instantaneous velocity
cosecant function
trapezoidal rule
definite integral

45. ex) dx - dy etc
differential
Fundamental theorem of calculus
domain
critical value

46. A point that represents the maximum value a function assumes over its domain
distance formula
law of cosine
constant of integration
absolute maximum

47. Ratio between the length of an arc and its radius
difference quotient
indefinite integral
concave down
Radian

48. If a function is on the closed interval [a - b] and F is an antiderivative (?) of f on [a -b] then ?f(x) dx from a to b is F(b) - F(a)
Fundamental theorem of calculus
limit at infinity
transcendental function
extreme value theorem

49. 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
power series
acceleration
second derivative test
left hand sum

50. Imaginary line drawn perpendicular to the surface of a mirror or any surface
related rates
normal line
critical point
endpoint extremum