AP ab calc review

Created by

Ibon Cerezo

Cards (96)

Average Rate of Change of f(x) on [a,b]
Instantaneous Rate of Change at x=a
If f(x) is increasing, then f'(x) is?
f'(x) = Positive
If f(x) is decreasing, then f'(x) is?
f'(x) = Negative
If f(x) is concave up, then f''(x) is?
f''(x) = positive
If f(x) is concave down, then f''(x) is?
f''(x) = negative
If f'(x) is increasing, then f''(x) is?
f''(x) = positive
If f'(x) is decreasing, then f''(x) is?
f''(x) = negative
Equation for the line tangent to f(x) at x=a 
y-f(a)=f'(a)(x-a)
Slope of the line tangent to f(x) at x=a
f'(a)
A function is continuous if and only if;
If a function is "differentiable" then,
It is also continuous
Derivative of e^x
Derivative of a^x
Derivative of sinx
Derivative of cosx
Derivative of tanx
Derivative of lnx
Derivative of arcsin(x)
Derivative of arctan(x)
Derivative of square root of x
Derivative of x^n
Derivative of f(x)g(x)
Derivative of f(x)/g(x)
Derivative of f(g(x))
Derivative of the inverse of f or f^(-1)
Mean Value Theorem
Intermediate Value Theorem
Extreme Value Theorem
Critical Point of f(x)
Where f'(x)=0 or f'(x) is undefined
Local Minimum (First Derivative Test) 
Where f'(x) changes from negative to positive
Local Maximum (First Derivative Test) 
Where f'(x) changes from positive to negative
Local Minimum (Second Derivative Test) 
Where f'(a)=0 and f''(a)>0
Local Maximum (Second Derivative Test) 
Where f'(a)=0 and f''(a)<0
Inflection Point of f(x) 
Where f''(x) changes sign
Candidates Test 
Plug x-coordinates of all closed end points and critical points back into the original function f(x) to determine global/absolute maximum and minimum.
Global Maximum 
The largest y-value on the interval [a,b]. Based on the candidates test.
Global Minimum 
The smallest y-value on the interval [a,b]. Based on the candidates test.
L'Hospitals Rule
ln(1)= 
0