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55 minutes ago, ExplosionMare said:

All I need to do is graph these points but I’m not sure if I marked them right or got them all down. Could anyone take a look at this and let me know how I can improve this before I go ahead and connect the points?

It looks like you have marked the four points correctly. I cannot really comment on the rest of the task, because it looks like the question is missing here.

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8 minutes ago, Pentium100 said:

It looks like you have marked the four points correctly. I cannot really comment on the rest of the task, because it looks like the question is missing here.

All I was told to do is plot what was given to me. Here’s the list of what I have to plot if this helps at all:

78B6568F-A785-4B38-8A90-4CFBA65DC959.thumb.jpeg.c31458ef2ba28ec5b4afcb91469c860c.jpeg

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3FBC2CD6-82F4-4BE2-9995-20DAD3ED3514.png.4ce87f72cf9bda0d0d5900fa20c489d3.png
 

Boom!

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9 minutes ago, ExplosionMare said:

All I was told to do is plot what was given to me. Here’s the list of what I have to plot if this helps at all:

The task is a bit confusing. The way I understand it - 

Function graph starts at (-3,0) then goes down to (-2,-3), then up to (0,-2), then down to (1,-3), continuing to (3,-5), then up to (0,5). Something like this:

 

 

 

image.png.d306db7d461f0b013fb9b6dd56635dbc.png

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16 minutes ago, Pentium100 said:

The task is a bit confusing. The way I understand it - 

Function graph starts at (-3,0) then goes down to (-2,-3), then up to (0,-2), then down to (1,-3), continuing to (3,-5), then up to (0,5). Something like this:

 

 

 

image.png.d306db7d461f0b013fb9b6dd56635dbc.png

I assume that’s how they want it. Thanks!

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3FBC2CD6-82F4-4BE2-9995-20DAD3ED3514.png.4ce87f72cf9bda0d0d5900fa20c489d3.png
 

Boom!

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On 2020-10-28 at 6:18 AM, Muffinnz said:

Im afraid to use this thread because people will see my lack of knowledge on a subject

Lack of knowledge is not something to be ashamed of – there is no person on this planet who would know everything; there will always be things that you don't have knowledge of. And the only way to gain knowledge is to ask people who have it and learn from them. It doesn't hurt ;) And learning stuff this way is usually much more fun than in schools. The more damaging is not asking, because then you remain ignorant and it piles up. The most dangerous are those people who don't want to learn even if you give them knowledge on a silver plate, because they think that they already know everything. Because they usually don't, and their stubbornness makes them incapable of learning. That's how people get stupid. And this is a reason to be ashamed.

On 2021-09-12 at 8:12 PM, ExplosionMare said:

All I need to do is graph these points but I’m not sure if I marked them right or got them all down.

Yup, you pretty much got them right, except one: the (-3 , 5) one, because the problem says that [-3, 5] is the DOMAIN of this function, so it's not supposed to be a point. It is a RANGE (along the X axis) in which this function has values. If you pick any point within this range on the X axis, and move straight up or down, you should be guaranteed to find a point of the graph there, representing the value of that function for that particular argument X. But if you pick some point outside of that range and move straight up or down, you shouldn't be able to find such a point, because outside of that domain, function is supposed to have no values.

But other than that, your points seem to be ok. Now you just need to connect them, and @Pentium100 showed you one possible way of doing it.

Keep in mind though that these lines don't necessarily have to be straight (in fact, they don't even have to be continuous curves). As long as the problem doesn't specify what kind of function you are supposed to draw, you can pretty much draw any squiggle that goes through those points, provided that it meets all the required conditions. E.g. from x = -3 to x = -2 they require it to decrease, so you can move down (either slow or fast), but no up.

If the problem required it to be a polynomial curve of the lowest degree that goes through these points, this question would get much more interesting ;) And in that case we would need to ask Mr. Lagrange for help ;)

Edited by SasQ
typo
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@ExplosionMare in case you wanted to know how the simplest polynomial curve going through your points looks like: just for fun I found it (with the help of Mr. Lagrange) ;)
Here it is, along with its formula:

LagrangePoly.png.5c733a8d3c0c90f6dae618aff595670c.png

You can play with it yourself here: https://www.desmos.com/calculator/ehgi7ngaor

Try moving the red points to some other coordinates by clicking and dragging them ;) The curve should then rearrange itself to still fit through all those points.
The original curve you started with will still be visible as a dashed line, for comparison.

Notice however that in my curve, points B and E aren't local minima, and point C is not a local maximum. Your problem had these requirements, so I can try come up with a curve that satisfies these requirements as well, but something tells me that its formula might end up even more complicated :umad:

Interestingly, if it wasn't limited to the [-3, 5] domain, there would be one more point at which it crosses the X axis :muffins: at roughly 6.559 (if you're curious, I can tell you the exact formula for that point's X coordinate too ;)).

Edited by SasQ
Fun fact
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13 hours ago, SasQ said:

@ExplosionMare in case you wanted to know how the simplest polynomial curve going through your points looks like: just for fun I found it (with the help of Mr. Lagrange) ;)
Here it is, along with its formula:

LagrangePoly.png.5c733a8d3c0c90f6dae618aff595670c.png

You can play with it yourself here: https://www.desmos.com/calculator/ehgi7ngaor

Try moving the red points to some other coordinates by clicking and dragging them ;) The curve should then rearrange itself to still fit through all those points.
The original curve you started with will still be visible as a dashed line, for comparison.

Notice however that in my curve, points B and E aren't local minima, and point C is not a local maximum. Your problem had these requirements, so I can try come up with a curve that satisfies these requirements as well, but something tells me that its formula might end up even more complicated :umad:

Interestingly, if it wasn't limited to the [-3, 5] domain, there would be one more point at which it crosses the X axis :muffins: at roughly 6.559 (if you're curious, I can tell you the exact formula for that point's X coordinate too ;)).

Thanks, I’ll keep this bookmarked so I can use the graph in the future! That looks about like the graph I got previously. You and @Pentium100 had a point with the domain being a bit limiting. It’s too bad there weren’t many directions given besides “graph these points”.


3FBC2CD6-82F4-4BE2-9995-20DAD3ED3514.png.4ce87f72cf9bda0d0d5900fa20c489d3.png
 

Boom!

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So I have to complete this step on the Word Doc I’m editing:

6B5ACB89-1EFE-4CED-8ACC-F8AE7CCBEC20.thumb.jpeg.408ca5486a078a5bf1ea32e4b731ab4f.jpeg

This is what I have so far:

217A3737-857B-46B4-9CAD-F23E99AD4D65.thumb.jpeg.215646311e55b75bc8be23ace53a3c2d.jpeg

Does anyone know where I can find the button to change the style? I am on the Apple version of Word so some of the button placements may be different.


3FBC2CD6-82F4-4BE2-9995-20DAD3ED3514.png.4ce87f72cf9bda0d0d5900fa20c489d3.png
 

Boom!

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  • 2 months later...

I’m good with Algebra and Geometry, but im a complete boss with equations such as slope intercept form and stuff like that. I’d be happy to help ʕ•́ᴥ•̀ʔっ✏️ 

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13 hours ago, Dominic_The_Pony said:

I’m good with Algebra and Geometry, but im a complete boss with equations such as slope intercept form and stuff like that. I’d be happy to help ʕ•́ᴥ•̀ʔっ✏️ 

Are you any good at College Algebra? Might need some help with that later if you’re interested 


3FBC2CD6-82F4-4BE2-9995-20DAD3ED3514.png.4ce87f72cf9bda0d0d5900fa20c489d3.png
 

Boom!

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  • 2 weeks later...
On 2021-11-23 at 12:05 AM, Dominic_The_Pony said:

IMMA FRESHMAN 🤓

haha, I feel that. Some of my friends ask me for help in school and I'm like, "dude I'm only a Sophomore!"

I'm wishing you luck though, ExplosionMare! I hope it all goes well :fluttershy:

Edited by DemeowHiya

I see you took the time to read my signature, so thanks! (^_^)

:secret: Make sure to stay awesomeB) Or else... Pinkamena will get you!

Small_Pinkamena.png.d2ea4c405cedcf1c507df67f327e2b13.png

 

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  • 5 months later...

I'm so close to finishing this little soda can here (it isn't meant to be super complex) and all it needs is this dip/hole here:

16669149_ScreenShot2022-05-27at5_20_38PM.png.55deed65715a5a557d9ddc11c247d0dc.png

I've been able to make something similar on a cube but I'm struggling to make it on my soda can (usually involves pressing i to make the circle then e to extrude it downwards). Here is what I have so far:

372466193_ScreenShot2022-05-27at5_14_51PM.thumb.png.124c028dce8f58dd47deff6c7c233aa6.png

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3FBC2CD6-82F4-4BE2-9995-20DAD3ED3514.png.4ce87f72cf9bda0d0d5900fa20c489d3.png
 

Boom!

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@ExplosionMare

If you are using Blender:

 

In edit mode (TAB to switch from object mode to edit mode), press K for the knife tool (or look up online what the key is for the knife tool, or use Blender's search to find it). When you are hovering over a vertex, it turns highlighted (green  color on my old old Blender version). Click on it, and then click on another vertex. Once you made the cut you want, press Enter to apply.

1_blender.png.4685ebf56346f40ef85d96df57d0896b.png

 

Then, you can select a face, and delete it, to make a hole:

2_blender.png.2f2167b06885fc7551cdd189566c6359.png

 

Then you can play around with the vertices as much as you want (select a vertex, press G twice to have it slide, so the face stays the same, etc, etc):
3_blender.png.782064a54693b5e6509839b4ad32e802.png

 

 

(I did this cylinder really quickly, and just started cutting to remember how the knife tool worked)

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Loop Cut is the thing you are looking for:

Create Mesh->Cylinder

Go to Ortho View (because modelling in perspective is not good, ever)

Go to Edit Mode (object mode can really mess up your object if you make any changes to it)

Select->Deselect All

And Loop Cut. Do as many as needed!

Quote
Mode: Edit Mode
Panel: Toolbar ‣ Tools ‣ Mesh Tools ‣ Add: Loop Cut and Slide

 Hotkey:

Ctrl-R

Mesh->Transform->Scale to model the edges as you want them.

Video from super old Blender on PC:

 

 

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