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### Course: Algebra (all content) > Unit 8

Lesson 1: Graphs of absolute value functions- Shifting absolute value graphs
- Shift absolute value graphs
- Scaling & reflecting absolute value functions: equation
- Scaling & reflecting absolute value functions: graph
- Scale & reflect absolute value graphs
- Graphing absolute value functions
- Graph absolute value functions
- Absolute value graphs review

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# Absolute value graphs review

The general form of an absolute value function is f(x)=a|x-h|+k. From this form, we can draw graphs. This article reviews how to draw the graphs of absolute value functions.

General form of an absolute value equation:

The variable ${a}$ tells us how far the graph stretches vertically, and whether the graph opens up or down. The variables ${h}$ and ${k}$ tell us how far the graph shifts horizontally and vertically.

Some examples:

### Example problem 1

We're asked to graph:

First, let's compare with the general form:

The value of ${a}$ is $1$ , so the graph opens upwards with a slope of $1$ (to the right of the vertex).

The value of ${h}$ is $1$ and the value of ${k}$ is $5$ , so the vertex of the graph is shifted $1$ to the right and $5$ up from the origin.

Finally here's the graph of $y=f(x)$ :

### Example problem 2

We're asked to graph:

First, let's compare with the general form:

The value of ${a}$ is $-2$ , so the graph opens downwards with a slope of $-2$ (to the right of the vertex).

The value of ${h}$ is $0$ and the value of ${k}$ is $4$ , so the vertex of the graph is shifted $4$ up from the origin.

Finally here's the graph of $y=f(x)$ :

*Want to learn more about absolute value graphs? Check out this video.*

*Want more practice? Check out this exercise.*

## Want to join the conversation?

- is there any easier steps to explain this type of lesson(23 votes)
- Maybe I can better explain

when you have an absolute value function you want to look at what are in the places of a, h and k. a|x-h|+k Specifically you want to look at h and k first. Normally the tip of the V shape is at (0,0) this changes depending on h and k. specifically it moves the tip to (h,k) so if you have |x+5|-7 then the tip of the V shape goes to (-5,-7). if you wonder why it is -5 even though we are adding 5, you just need to look at the original a|x-h|+k if we had -5 then it would be just like that, but since it is +5, we have to look at it as - -5, minus negative 5. so if it helps, the x coordinate is kinda backwards.

After the V tip you then look at a. treat it like a linear equation where a is the slope. so if a was -3 that's down 3 right 1 using rise over run. then, since it's an absolute value function you need to know that the same line goesalong the left to make that V shape, so -5 would mean on the left down 3 and left 1.

if you ever have something like a|bx-h|+k where there is a number in front of the x you need to get rid of it if you are not aware of factoring this is what it would look like a|b||x - h/b|+k where a|b| becomes the new "a" and h/b becomes the new h, then you would solve it normally. The point being you always want x by itself for this. Also, keep in mind that even if inside the absolute value bars if b was negative, outside it becomes positive.

Let me know if that didn't help, or if there is a specific function you are struggling with, or maybe would even like some to try out.(83 votes)

- If someone needs:

Horizontal shift : y = f(x+b)

Vertical shift: y = f(x) +d

Reflection about the X-axis : y = -f(x)

Reflection about the Y-axis : y = f(-x)

Stretch/Compress in the X direction: y = f(a * x)

Stretch/Compress in the Y direction: y=f(x) * a(21 votes) - In example problem 1, why isn’t the graph shifted 1 unit to the left instead of to the right?(7 votes)
- It is shifted to the right because
`x-1`

would make it`0`

when`x=1`

because

`x=1`

`1-1=0`

So, we always want the absolute value part of the equation to be equal to 0 when we use x as the horizontal shifting.

While, the vertical part goes**up with + not down**because when,`y=a∣x−h∣+k`

`y-k=a|x-h|`

So basically we transpose it to make it easier to distinguish.(25 votes)

- How would we utilize this in real life? For what careers?(5 votes)
- How do you identify the vertex y intercept and x intercept(1 vote)
- Hey there,

I'm not an expert here, but it was an interesting exercise to figure out the answer to your questions and I figured I might as well post it here. Sorry if it's too much of a wall of text to get through.

Just to recapitulate, the general form is:

f(x) = a|x−h| + k

The vertex is located at point (h,k). The minimum or maximum (depending on whether a is positive or negative) of the graph is at the point where x - h = 0. This is the same as saying x = h, which gives us the x-coordinate of the vertex. As for the y-coordinate: since we just saw that |x-h| = 0, a|x−h| must also be 0, which only leaves us with k.

To find the y-intercept, we can set x to 0. In the general formula, that means:

f(0) = a|0−h| + k

f(0) = a|h| + k

Which gives us, as a general rule, (0,(a|h|+k)) as the y-intercept. Taking one of the examples, f(x)= |x−1| + 5 where a=1, h=1 and k=5: the y-coordinate of the intercept is 1|1| + 5 = 6, which means the intercept is at (0,6).

The method I thought of to find the x-intercepts a bit more involved, maybe someone else knows an easier way. I basically just used algebra.

There can be 0 or 2 x-intercepts depending on the value of k and a.

There will be two x-intercepts if:

k > 0 and a < 0

or

k < 0 and a > 0

and no x-intercepts otherwise. That said, let's use the general form again and set the result of the function to 0 and try to solve for x.

0 = a|x−h| + k

-k = a|x−h|

-k/a = |x-h|

|-k/a| = x-h

|-k/a| + h = x

Here it gets a bit tricky. There can be two possible values such that their absolute value together with h adds up to x: -k/a and k/a, since both evaluate to the same absolute value. But since we're looking for two intercepts, it actually makes sense that there are two possible results for x:

-k/a + h = x and k/a + h = x

I tested this with f(x)= -2|x+5| +4

According to my result, -(4/-2) +(-5) and 4/-2 +(-5) should be the x-coordinates of this graph's y-intersects: -3 and -7, and it checks out! It kind of makes sense as well: we're dividing k - the difference in y from the x-axis at the maximum - by the slope. This should give as result the difference in x from the maximum, and then we're adding the amount by which the maximum was shifted.

Cheers if someone actually read all of these words.(14 votes)

- Can Someone solve this hard inequality I've been stuck in for over 30 years solving it.

|x+6|>|x-6|(0 votes)- 𝑥 + 6 = 0 ⇒ 𝑥 = −6

𝑥 − 6 = 0 ⇒ 𝑥 = 6

This means that there are 3 scenarios we need to analyze:

𝑥 < −6

−6 ≤ 𝑥 < 6

𝑥 ≥ 6

– – – Scenario 1 – – –

𝑥 < −6

⇒

|𝑥 + 6| = −(𝑥 + 6) = −𝑥 − 6

|𝑥 − 6| = −(𝑥 − 6) = 6 − 𝑥

Thus, |𝑥 + 6| > |𝑥 − 6|

⇒ −𝑥 − 6 > 6 − 𝑥

⇒ −6 > 6, which is not true.

This means that the inequality |𝑥 + 6| > |𝑥 − 6|

is not true for any 𝑥 < −6.

– – – Scenario 2 – – –

−6 ≤ 𝑥 < 6

⇒

|𝑥 + 6| = 𝑥 + 6

|𝑥 − 6| = −(𝑥 − 6) = 6 − 𝑥

Thus, |𝑥 + 6| > |𝑥 − 6|

⇒ 𝑥 + 6 > 6 − 𝑥

⇒ 𝑥 > −𝑥

⇒ 2𝑥 > 0

⇒ 𝑥 > 0

Thereby |𝑥 + 6| > |𝑥 − 6|

is true when −6 ≤ 𝑥 < 6 AND 𝑥 > 0,

i.e., when 0 < 𝑥 < 6

– – – Scenario 3 – – –

𝑥 ≥ 6

⇒

|𝑥 + 6| = 𝑥 + 6

|𝑥 − 6| = 𝑥 − 6

Thus, |𝑥 + 6| > |𝑥 − 6|

⇒ 𝑥 + 6 > 𝑥 − 6

⇒ 6 > −6, which is true.

Thereby |𝑥 + 6| > |𝑥 − 6|

is true for all 𝑥 ≥ 6

– – –

In conclusion, |𝑥 + 6| > |𝑥 − 6|

is true when 0 < 𝑥 < 6 OR 𝑥 ≥ 6,

i.e., for 𝑥 > 0.

In other words,

𝑥 > 0 is the solution to |𝑥 + 6| > |𝑥 − 6|(11 votes)

- So is h is positive that means that it is actually negative? Is that why if its x + 3 on the graph you go to negative 3?(2 votes)
- No, if it is positive it means I move in the negative direction, but if h is negative I move in the positive direction, it does not change the sign of h. The idea is that what value of x would make the inside of the absolute value (or other function) 0, so if you have x + 3, it would require x = -3 to be 0, thus causing a shift in the negative direction. The other idea is that since the formula has | x - h | + k where (h,k) is the vertex, then using x+ 3 would actually be x - (- 3) so -3 would cause a shift to the left.(7 votes)

- I am confused on how you know if the vertex is a minimum or maximum point.(0 votes)
- The general form of the absolute value function is:

f(x) = a|x-h|+k

When "a" is negative, the V-shape graph opens downward and the vertex is the maximum.

When "a" is positive, the V-shape graph opens upward and the vertex is a minimum.

Hope this helps.(10 votes)

- Who is here 2024?(4 votes)
- Me:) I'm going to 8th grade and I'm trying to skip algebra 1 (hopefully I pass) and go to geometry(1 vote)

- what if x has a coefficient(1 vote)
- Great Question. When x has a non-one and non-zero coefficient, the curve stretches or shrinks.

When coefficient of x is larger than one, then the curve shrinks along the x-axis with the scale of 1 / (coefficient).

When coefficient of x is smaller than one but larger than zero, the curve expands with the scale of 1 / (coefficient).

If it's negative then it's a reflection.(7 votes)