Suppose that f is a differentiable function with derivative
đ'(đĽ) = (đĽ â 3)(đĽ + 1)(đĽ + 5). Determine the intervals of x for which the function of f is increasing and decreasing.
Well, well, well, looks like we have a differentiable function with the derivative (đĽ â 3)(đĽ + 1)(đĽ + 5). To find the intervals of x where f is increasing and decreasing, we need to look at the sign of the derivative.
Let's break it down. The derivative (đĽ â 3)(đĽ + 1)(đĽ + 5) is a product of three factors. We need to determine the intervals of x where each factor is positive, negative, or zero.
First, let's find when (đĽ â 3) = 0. Solving this equation, we get đĽ = 3. So, (đĽ â 3) is zero when x = 3.
Next, let's find when (đĽ + 1) = 0. Solving this equation, we get đĽ = -1. So, (đĽ + 1) is zero when x = -1.
Finally, let's find when (đĽ + 5) = 0. Solving this equation, we get đĽ = -5. So, (đĽ + 5) is zero when x = -5.
Now, let's consider each factor:
When đĽ < -5, all three factors are negative. So, (đĽ â 3)(đĽ + 1)(đĽ + 5) is negative.
When -5 < đĽ < -1, (đĽ â 3) is negative, (đĽ + 1) is positive, and (đĽ + 5) is negative. Therefore, (đĽ â 3)(đĽ + 1)(đĽ + 5) is positive.
When -1 < đĽ < 3, (đĽ â 3) is negative, (đĽ + 1) is positive, and (đĽ + 5) is positive. Hence, (đĽ â 3)(đĽ + 1)(đĽ + 5) is negative.
Lastly, when đĽ > 3, all three factors are positive. So, (đĽ â 3)(đĽ + 1)(đĽ + 5) is positive.
Now, remembering that f'(đĽ) is the derivative of f, we can determine the intervals of x for which the function f is increasing and decreasing.
When (đĽ â 3)(đĽ + 1)(đĽ + 5) is positive, f'(đĽ) > 0, which means f is increasing.
When (đĽ â 3)(đĽ + 1)(đĽ + 5) is negative, f'(đĽ) < 0, which means f is decreasing.
So, putting it all together, we have:
- f is increasing when x < -5 or -1 < x < 3.
- f is decreasing when -5 < x < -1 or x > 3.
I hope this answer tickled your mathematical funny bone!
To determine the intervals where the function f is increasing and decreasing, we need to analyze the sign of the derivative.
Given:
f'(x) = (x - 3)(x + 1)(x + 5)
We need to find the values of x for which the derivative is positive (increasing) and negative (decreasing).
Let's break down the problem step by step:
1. Find the critical points:
The critical points are the values of x for which f'(x) = 0 or f'(x) is undefined. In this case, f'(x) is defined for all real numbers, so we need to find where f'(x) = 0.
Setting f'(x) = 0:
(x - 3)(x + 1)(x + 5) = 0
This equation gives us three critical points: x = 3, x = -1, and x = -5.
2. Determine the intervals:
Now, we will divide the number line into four intervals using the critical points:
(-â, -5), (-5, -1), (-1, 3), and (3, +â).
3. Analyze the sign of f'(x) in each interval:
For each interval, we choose a test point to determine the sign of f'(x). A convenient choice is the midpoint of each interval.
- For x < -5, let's choose x = -6.
Plugging x = -6 into f'(x) = (x - 3)(x + 1)(x + 5), we get:
f'(-6) = (-6 - 3)(-6 + 1)(-6 + 5) = (-9)(-5)(-1) = 45 > 0
- For -5 < x < -1, let's choose x = -2.
Plugging x = -2 into f'(x) = (x - 3)(x + 1)(x + 5), we get:
f'(-2) = (-2 - 3)(-2 + 1)(-2 + 5) = (-5)(-1)(3) = 15 < 0
- For -1 < x < 3, let's choose x = 0.
Plugging x = 0 into f'(x) = (x - 3)(x + 1)(x + 5), we get:
f'(0) = (0 - 3)(0 + 1)(0 + 5) = (-3)(1)(5) = -15 < 0
- For x > 3, let's choose x = 4.
Plugging x = 4 into f'(x) = (x - 3)(x + 1)(x + 5), we get:
f'(4) = (4 - 3)(4 + 1)(4 + 5) = (1)(5)(9) = 45 > 0
4. Analyze the results:
Based on the signs of f'(x) in each interval, we can determine when the function f is increasing and decreasing.
- The function f is increasing on the intervals:
(-â, -5) and (3, +â)
- The function f is decreasing on the interval:
(-5, -1)
Therefore, the intervals where the function f is increasing are (-â, -5) and (3, +â), and the interval where f is decreasing is (-5, -1).
To determine the intervals on which the function f is increasing or decreasing, we need to analyze the sign of the derivative đ'(đĽ).
1. Find the critical points:
To find the critical points, we need to solve the equation đ'(đĽ) = 0.
Set (đĽ â 3)(đĽ + 1)(đĽ + 5) = 0 and solve for đĽ:
(đĽ â 3)(đĽ + 1)(đĽ + 5) = 0
Setting each factor to zero, we get:
đĽ â 3 = 0 => đĽ = 3
đĽ + 1 = 0 => đĽ = -1
đĽ + 5 = 0 => đĽ = -5
So, the critical points are đĽ = 3, đĽ = -1, and đĽ = -5.
2. Test intervals using test points:
Now, let's choose some test points in each interval determined by the critical points to determine the sign of the derivative đ'(đĽ) in those intervals.
- For đĽ < -5, choose a test point đĽ = -10:
Plug đĽ = -10 into đ'(đĽ):
đ'(-10) = (-10 â 3)(-10 + 1)(-10 + 5) = (-13)(-9)(-5) = -585
Since đ'(-10) = -585 is negative, đ(x) is decreasing in the interval đĽ < -5.
- For -5 < đĽ < -1, choose a test point đĽ = -3:
Plug đĽ = -3 into đ'(đĽ):
đ'(-3) = (-3 â 3)(-3 + 1)(-3 + 5) = (-6)(-2)(2) = 24
Since đ'(-3) = 24 is positive, đ(x) is increasing in the interval -5 < đĽ < -1.
- For -1 < đĽ < 3, choose a test point đĽ = 0:
Plug đĽ = 0 into đ'(đĽ):
đ'(0) = (0 â 3)(0 + 1)(0 + 5) = (-3)(1)(5) = -15
Since đ'(0) = -15 is negative, đ(x) is decreasing in the interval -1 < đĽ < 3.
- For đĽ > 3, choose a test point đĽ = 5:
Plug đĽ = 5 into đ'(đĽ):
đ'(5) = (5 â 3)(5 + 1)(5 + 5) = (2)(6)(10) = 120
Since đ'(5) = 120 is positive, đ(x) is increasing in the interval đĽ > 3.
So, the summary of our findings is:
- đ(x) is decreasing in the interval đĽ < -5.
- đ(x) is increasing in the interval -5 < đĽ < -1.
- đ(x) is decreasing in the interval -1 < đĽ < 3.
- đ(x) is increasing in the interval đĽ > 3.
since f'(x) =0 at x = -5, -1, 3 f' changes sign there.
Since f'(-6) < 0,
f is increasing (f' > 0) in (-5,-1) and (3,â)
f is decreasing on (-â,-5) and (-1,3)
This is just Algebra II. Recall what you know about the properties of polynomials.