- Special right triangles intro (part 1)
- Special right triangles intro (part 2)
- Trigonometric ratios of special angles
- 30-60-90 triangle example problem
- Special right triangles
- Special right triangles proof (part 1)
- Special right triangles proof (part 2)
- Evaluating expressions of trigonometric ratios for some special angles
Showing the ratios of the sides of a 45-45-90 triangle are 1:1:sqrt(2). Created by Sal Khan.
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- Can you end up with anything other than a isosceles triangle if you have one 45 degree angle and one 90 degree angle?(15 votes)
- Nope, because a triangle ALWAYS has 180˚. No more, no less. If two angles are 45 and 90, then the other HAS to be 45 to make it add to 180. Hope this helps!(34 votes)
- does anyone know where hypotenuse came from?(12 votes)
- The word hypotenuse means essentially "length under", and derives from Latin hypotēnūsa (according to Wikipedia: http://en.wikipedia.org/wiki/Hypotenuse)(18 votes)
- I understand how the 45-45-90 triangle works, but does anyone know a 45-45-90 triangle with whole numbers?
(i need three whole numbers, kind of like the 3-4-5 triangle, but i need it in a 45-45-90 triangle)
- Since a 45-45-90 multiplies by √2 to get from hypotenuse to side, there is no integer representation.(21 votes)
- If the two legs are x and the hypotenuse is three square root 2 how do I find x?(8 votes)
- In a 45-45-90 triangle, how would you solve for the other two lengths if the base is 8*square root 2? Or please give me an example, thank-you.
I couldn't watch the video because of computer difficulties, my apologies if I'm a little off topic.(5 votes)
- Did you mean the hypotenuse was 8*sqrt(2) units long?
If you know the hypotenuse's length of a 45-45-90 triangle, divide the hypotenuse's length by sqrt(2) to find the length of both of the legs. In this case, the legs have a length of 8 units.
Did you mean one of the legs was 8*sqrt(2) units long?
If you know the length of one of the legs of a 45-45-90 triangle, the other leg has the same length. For this triangle, the other leg has a length of 8*sqrt(2) units. The hypotenuse's length can be found by multiplying the leg's length by sqrt(2). Tis triangle's hypotenuse has a length of 16 units.
In a 45-45-90 triangle, both of the legs have the same length and the ratio of one leg to the hypotenuse is 1:sqrt(2). I hope this helps!(3 votes)
- how do you do pythagorean theorem please(3 votes)
- It was theorem proposed by Pythagoras, which deals with Right angled Triangles only
Pythagorean Theorem just states that in any Right Triangle(With a 90 degree angle) the Length of Hypotenuse squared (Side opposite to 90 degree) is equal to the Sum of the length of squares of its base and adjacent side.
Commonly known as A^2 + B^2 = C^2
To be clear, the Side CB in Triangle ABC is equal to the root of Sum of the other two sides, that is √( AB+AC)
C Angle CAB is a 90 degree angle
• Which Makes CB Hypotenuse
• • By Pythagorean Theorem CB^2 = AB^2 + AC^2
• • CB = √AB^2 + BC^2
• • Try doing a problem, its on KA, and is Fun!
Let a Triangle have Legs(Base & Adjacent) of 12 and 5cm. So, the The Third side or Hypotenuse is 12^2 + 5^2 = > 144+25 = √169 = 13cm
For a reference see Sal's beautiful playlist on Pythagorean Theorem :- https://www.khanacademy.org/math/geometry/right_triangles_topic/pyth_theor/v/pythagorean-theorem(7 votes)
- This may sound like a stupid question but what video precedes this one? Sal says in the previous video... but i cant find it.(2 votes)
- I think this is the video you are looking for: http://www.khanacademy.org/math/geometry/triangles/v/30-60-90-triangle-side-ratios-proof(6 votes)
- Where did the name right angle come from?(4 votes)
- The meaning of 'right' in right angle possibly refers to the Latin adjective rectus erect, straight, upright, perpendicular'.
In this case the origin of the term could come from architecture where right angles would be used in building structures. In this scenario right would refer to the correct way of doing something such as laying beams for a house.(1 vote)
- sal, how do write so neat with a mousepad? when i write, it is terrible.(3 votes)
- How did they discover the special right triangles?(3 votes)
- That's a good question. Simply put, with any given set of angles, there is one side ratio. Now, for most general cases, you either don't know what the angles are, or they're something like 63-27-90, in which case it is better to use the normal Pythagorean Theorem, since you don't want to make a new formula every time you run into a new angle. But for cases like 30-60-90, or 45-45-90, it is worth your time to figure out a side formula and then apply it every time you need to. So, really, there aren't special right triangles. You can apply this method to any triangle. But since people use this technique primarily on 30-60-90 and 45-45-90 triangles, they're called 'special'.(0 votes)
In the last video, we showed that the ratios of the sides of a 30-60-90 triangle are-- if we assume the longest side is x, if the hypotenuse is x. Then the shortest side is x/2 and the side in between, the side that's opposite the 60 degree side, is square root of 3x/2. Or another way to think about it is if the shortest side is 1-- Now I'll do the shortest side, then the medium size, then the longest side. So if the side opposite the 30 degree side is 1, then the side opposite the 60 degree side is square root of 3 times that. So it's going to be square root of 3. And then the hypotenuse is going to be twice that. In the last video, we started with x and we said that the 30 degree side is x/2. But if the 30 degree side is 1, then this is going to be twice that. So it's going to be 2. This right here is the side opposite the 30 degree side, opposite the 60 degree side, and then the hypotenuse opposite the 90 degree side. And so, in general, if you see any triangle that has those ratios, you say hey, that's a 30-60-90 triangle. Or if you see a triangle that you know is a 30-60-90 triangle, you could say, hey, I know how to figure out one of the sides based on this ratio right over here. Just an example, if you see a triangle that looks like this, where the sides are 2, 2 square root of 3, and 4. Once again, the ratio of 2 to 2 square root of 3 is 1 to square root of 3. The ratio of 2 to 4 is the same thing as 1 to 2. This right here must be a 30-60-90 triangle. What I want to introduce you to in this video is another important type of triangle that shows up a lot in geometry and a lot in trigonometry. And this is a 45-45-90 triangle. Or another way to think about is if I have a right triangle that is also isosceles. You obviously can't have a right triangle that is equilateral, because an equilateral triangle has all of their angles have to be 60 degrees. But you can have a right angle, you can have a right triangle, that is isosceles. And isosceles-- let me write this-- this is a right isosceles triangle. And if it's isosceles, that means two of the sides are equal. So these are the two sides that are equal. And then if the two sides are equal, we have proved to ourselves that the base angles are equal. And if we called the measure of these base angles x, then we know that x plus x plus 90 have to be equal to 180. Or if we subtract 90 from both sides, you get x plus x is equal to 90 or 2x is equal to 90. Or if you divide both sides by 2, you get x is equal to 45 degrees. So a right isosceles triangle can also be called-- and this is the more typical name for it-- it can also be called a 45-45-90 triangle. And what I want to do this video is come up with the ratios for the sides of a 45-45-90 triangle, just like we did for a 30-60-90 triangle. And this one's actually more straightforward. Because in a 45-45-90 triangle, if we call one of the legs x, the other leg is also going to be x. And then we can use the Pythagorean Theorem to figure out the length of the hypotenuse. So the length of the hypotenuse, let's call that c. So we get x squared plus x squared. That's the square of length of both of the legs. So when we sum those up, that's going to have to be equal to c squared. This is just straight out of the Pythagorean theorem. So we get 2x squared is equal to c squared. We can take the principal root of both sides of that. I wanted to just change it to yellow. Last, take the principal root of both sides of that. The left-hand side you get, principal root of 2 is just square root of 2, and then the principal root of x squared is just going to be x. So you're going to have x times the square root of 2 is equal to c. So if you have a right isosceles triangle, whatever the two legs are, they're going to have the same length. That's why it's isosceles. The hypotenuse is going to be square root of 2 times that. So c is equal to x times the square root of 2. So for example, if you have a triangle that looks like this. Let me draw it a slightly different way. It's good to have to orient ourselves in different ways every time. So if we see a triangle that's 90 degrees, 45 and 45 like this, and you really just have to know two of these angles to know what the other one is going to be, and if I tell you that this side right over here is 3-- I actually don't even have to tell you that this other side's going to be 3. This is an isosceles triangle, so those two legs are going to be the same. And you won't even have to apply the Pythagorean theorem if you know this-- and this is a good one to know-- that the hypotenuse here, the side opposite the 90 degree side, is just going to be square root of 2 times the length of either of the legs. So it's going to be 3 times the square root of 2. So the ratio of the size of the hypotenuse in a 45-45-90 triangle or a right isosceles triangle, the ratio of the sides are one of the legs can be 1. Then the other leg is going to have the same measure, the same length, and then the hypotenuse is going to be square root of 2 times either of those. 1 to 1, 2 square root of 2. So this is 45-45-90. That's the ratios. And just as a review, if you have a 30-60-90, the ratios were 1 to square root of 3 to 2. And now we'll apply this in a bunch of problems.