In determining intervals where a function is increasing or decreasing, you first find domain values where all critical points will occur; then, test all intervals in the domain of the function to the left and to the right of these values to determine if the derivative is positive or negative. If f′(x) > 0, then f is increasing on the interval, and if f′(x) < 0, then f is decreasing on the interval. This and other information may be used to show a reasonably accurate sketch of the graph of the function.
Example 1: For f(x) = x 4 − 8 x 2 determine all intervals where f is increasing or decreasing.
The domain of f(x) is all real numbers, and its critical points occur at x= −2, 0, and 2. Testing all intervals to the left and right of these values for f′(x) = 4 x 3 − 16 x, you find that
hence, f is increasing on (−2,0) and (2,+ ∞) and decreasing on (−∞, −2) and (0,2).
Example 2: For f(x) = sin x + cos x on [0,2Ď€], determine all intervals where f is increasing or decreasing.
The domain of f(x) is restricted to the closed interval [0,2Ď€], and its critical points occur at Ď€/4 and 5Ď€/4. Testing all intervals to the left and right of these values for f′(x) = cos x − sin x, you find that
hence, f is increasing on [0, π/4](5π/4, 2π) and decreasing on (π/4, 5π/4).
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