To determine the interval on which the function f(x) = cos(4x) - 3 is increasing or decreasing, we first need to find its derivative.
The derivative of the function is calculated as follows:
f'(x) = d/dx[cos(4x) - 3] = -4sin(4x)
Now, we set the derivative equal to zero to find the critical points:
-4sin(4x) = 0
This occurs when sin(4x) = 0. The sine function is zero at integer multiples of π, hence:
4x = nπ, where n is any integer.
Therefore, we can solve for x:
x = nπ/4
Next, we analyze the intervals determined by these critical points. The values of n will give us points such as:
x = -π/4, 0, π/4, π/2, ...
To determine if the function is increasing or decreasing, we can test the derivative f'(x) = -4sin(4x) in the intervals defined by these critical points:
- For
n = -1, between-π/4and0: - Pick a test point, say
-π/8:f'(-π/8) = -4sin(-&pi/2) = 4 > 0(increasing). - For
n = 0, between0andπ/4: - Pick a test point, say
π/8:f'(π/8) = -4sin(&pi/2) = -4 < 0(decreasing). - For
n = 1, betweenπ/4andπ/2: - Pick a test point, say
3π/8:f'(3π/8) = -4sin(3&pi/2) = 4 > 0(increasing).
From this analysis, we can conclude:
The function f(x) = cos(4x) - 3 is:
- Increasing on the intervals
((- rac{ ext{pi}}{4}, 0), ( rac{ ext{pi}}{4}, rac{ ext{pi}}{2}), ...) - Decreasing on the intervals
((0, rac{ ext{pi}}{4}), ( rac{ ext{pi}}{2}, rac{3 ext{pi}}{4}), ...)
Thus, we can identify multiple intervals of increase and decrease depending on the cyclical behavior of the cosine and sine functions.