Is there a name for when someone thinks they are really bad at something (for example math) and they have learned not to trust their own intuition at all so they make really wild errors by second guessing themselves?
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@Bumblefish @3TomatoesShort @EverydayMoggie
Ok but try.
@futurebird @3TomatoesShort @EverydayMoggie I got a circle.
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@futurebird @3TomatoesShort @EverydayMoggie I got a circle.
@Bumblefish @3TomatoesShort @EverydayMoggie
Great use the center and the circle to make a pointy triangle.
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@futurebird @3TomatoesShort @EverydayMoggie I got a circle.
@futurebird @3TomatoesShort @EverydayMoggie Oh wait if I lie it down and trace around it I got a…wait wait *that’s* got an angle . What’s going on here?
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@Bumblefish @3TomatoesShort @EverydayMoggie
Great use the center and the circle to make a pointy triangle.
@futurebird @3TomatoesShort @EverydayMoggie Ok so where I’m holding the compass is a pointy triangle.
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@futurebird @3TomatoesShort @EverydayMoggie Oh wait if I lie it down and trace around it I got a…wait wait *that’s* got an angle . What’s going on here?
@Bumblefish @3TomatoesShort @EverydayMoggie
OK now I'm confused what you have done. This is what I was expecting. But, people always surprise me.
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@Bumblefish @3TomatoesShort @EverydayMoggie
OK now I'm confused what you have done. This is what I was expecting. But, people always surprise me.
@futurebird @3TomatoesShort @EverydayMoggie No that would not occur to me in a million years.
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@futurebird @3TomatoesShort @EverydayMoggie Ok so where I’m holding the compass is a pointy triangle.
@Bumblefish @3TomatoesShort @EverydayMoggie
EXACTLY!
The legs of the compass are the same length (roughly) so it makes an isosceles triangle.
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@futurebird @3TomatoesShort @EverydayMoggie No that would not occur to me in a million years.
@futurebird @3TomatoesShort @EverydayMoggie However if you had asked me to cut it like a pizza we’d have been fine.
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@3TomatoesShort @EverydayMoggie @futurebird I was going to suggest paper modeling. I can’t calculate anything to save my life, but give me a concrete thing I can shape with my hands and things start to make sense. You mentioned compasses. Nobody has reliably convinced me they can do anything except make circles. The whole thing where you use them to make angles is deep magic that only wizards can perform.
@Bumblefish @3TomatoesShort @EverydayMoggie @futurebird
Using a compass to draw an isosceles triangle is a step too far for me.
I’d start with physical paper, then model different scales in a digital tool and then translate that to angle degrees + line proportions.
I’ve repeated this process enough that I can “tear” a flattened 3-D cube out of a sheet of paper in capital T or lower-case t configurations. -
@futurebird @3TomatoesShort @EverydayMoggie However if you had asked me to cut it like a pizza we’d have been fine.
@Bumblefish @3TomatoesShort @EverydayMoggie
OK pizza good to know.
Anyway. Connecting the center of a circle to two points like that is a great way to create an angle. When you copy an angle you are just cutting two pizza slices that are the same.
If the pizzas are the same size, and the distance between the points on the circle is the same. The angle at the top (center) is the same.
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@Bumblefish @3TomatoesShort @EverydayMoggie @futurebird
Using a compass to draw an isosceles triangle is a step too far for me.
I’d start with physical paper, then model different scales in a digital tool and then translate that to angle degrees + line proportions.
I’ve repeated this process enough that I can “tear” a flattened 3-D cube out of a sheet of paper in capital T or lower-case t configurations.@dahukanna @Bumblefish @3TomatoesShort @EverydayMoggie
That sounds like so much work to me.
If you want someone with two parts that are the same length that start at the same point they have to be on a circle. No need to measure anything.
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I'm trying to understand this.
If I flip a board "l-r" will the result be different than "r-l" ?
The way I'm picturing this the answer would be "no" right?
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@futurebird
Yeah l-r or r-l is the same but many kids would flip top-bottom or rotate.I think focusing on the results might help? If they go top/bottom the text will be upside down.
So "flip it so the edge with the text is *still* near you but the lighter side of the board is on top" maybe?
The "left right" makes me think of rotating since with 90 degree turns left and right matter?
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@dahukanna @Bumblefish @3TomatoesShort @EverydayMoggie
That sounds like so much work to me.
If you want someone with two parts that are the same length that start at the same point they have to be on a circle. No need to measure anything.
@futurebird I‘ve no cognitive intuition for geometry, never been able to tell left from right, am a visual learner & can imagine an Apple+smell it+hear crunch when I bite into it, …
So validating a flat planer isosceles triangle needs deliberate cognitive effort, else i’m guessing based on “way wind blows” or my mood.As a digital Designer, developed systems that enable expressing visual scene by literally, mentally mathematically raytracing scene. POV ray was “heaven”- camera, lights, action!
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One of the harder things to accept as a teacher is that some kids will just never like math. That's fine though. I can cope.
What everyone *can* like (at least) is getting the right answer and knowing it's right. Knowing that yourself not needing anyone to tell you.
So I'm hoping we can at least get to that stage.
Right now I think she thinks I'm just making up geometry as I go and it's basically Calvinball.
@futurebird My experience as a tutor and a teaching assistant in math-heavy subjects was that, while it's not everyone, there are a lot of kids who basically get the material but who need someone to occasionally encourage them that they're on the right track when they seize up and second-guess themselves.
The second-guessing can be useful in more advanced study if it's targeted appropriately. If I didn't know for sure that that diagram was supposed to represent Euclidean geometry, I *couldn't* actually say that the congruent angles followed from the symmetry of the triangle without further assumptions. (Maybe the metric space it's in doesn't share that symmetry!) Then, that student's suspicion of intuition would be warranted. It's just misfiring in situations where it's not.
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@futurebird I‘ve no cognitive intuition for geometry, never been able to tell left from right, am a visual learner & can imagine an Apple+smell it+hear crunch when I bite into it, …
So validating a flat planer isosceles triangle needs deliberate cognitive effort, else i’m guessing based on “way wind blows” or my mood.As a digital Designer, developed systems that enable expressing visual scene by literally, mentally mathematically raytracing scene. POV ray was “heaven”- camera, lights, action!
That's interesting. I *also* have no sense of left or right. "you injured your left leg which one still hurts?"
But, this has always been a secret advantage in mathematics since seeing patterns backwards happens as fast as forwards.
I don't mind doing measurements but here is another shot at avoiding it:
An isosceles triangle is a pendulum. The distances are the same because it's the same string. If a pendulum could swing all the way around it would make a circle.
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We use the numbers consistently because I find using three letters is more confusing for most students.
eg ∠ABC = ∠BCA
vs. ∠3 = ∠2
Which do you find less confusing?
We could also do ∠B = ∠C but naming angles by single letter is a bad habit since there can be multiple angles at a vertex.
@futurebird @jetlagjen I like the system where you have one arc in one angle then two arcs, etc., and an equal number of arcs for angles that are the same size.
But I guess if you are asking the student which angles have the same size, you can't use arcs in the problem.
Using letters to represent the line segments is the standard? I agree, naming angles by the combination of letters was confusing.
What if you use the dot of color to identify each angle? I guess that wouldn't photocopy well..
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@futurebird My experience as a tutor and a teaching assistant in math-heavy subjects was that, while it's not everyone, there are a lot of kids who basically get the material but who need someone to occasionally encourage them that they're on the right track when they seize up and second-guess themselves.
The second-guessing can be useful in more advanced study if it's targeted appropriately. If I didn't know for sure that that diagram was supposed to represent Euclidean geometry, I *couldn't* actually say that the congruent angles followed from the symmetry of the triangle without further assumptions. (Maybe the metric space it's in doesn't share that symmetry!) Then, that student's suspicion of intuition would be warranted. It's just misfiring in situations where it's not.
That is too much second guessing. I mean... it's correct. I didn't say what kind of geometry or if this is on a plane. But ... that's too much.
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@futurebird @jetlagjen I like the system where you have one arc in one angle then two arcs, etc., and an equal number of arcs for angles that are the same size.
But I guess if you are asking the student which angles have the same size, you can't use arcs in the problem.
Using letters to represent the line segments is the standard? I agree, naming angles by the combination of letters was confusing.
What if you use the dot of color to identify each angle? I guess that wouldn't photocopy well..
Using color to identify angles means you can't use it to show which ones are the same. Which is a great use for color if you don't have color blind students. (I don't at the moment but it's always in the back of my mind. )
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That's interesting. I *also* have no sense of left or right. "you injured your left leg which one still hurts?"
But, this has always been a secret advantage in mathematics since seeing patterns backwards happens as fast as forwards.
I don't mind doing measurements but here is another shot at avoiding it:
An isosceles triangle is a pendulum. The distances are the same because it's the same string. If a pendulum could swing all the way around it would make a circle.
@futurebird
Physically rotated phone screen so that base of triangle was at x=0 & was 80% certain I was looking at an isosceles if base angles were actually, exactly identical.Re pendulum & isosceles, maybe being too literal but pendulum angle:
1. Could also represent an equilateral triangle.
2. Decreases to zero over time & is no longer an isosceles.I just realized that my default cognitive spatial map is x, y & z coordinates. So pendulum model example would not be intuitive heuristic.
