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Transcription de la vidéo
In this video we're going to do with the hyperbola the exact same thing we did with the circle. We're going to find constraints on the y-intercept for the tangent line in terms of m. But this time we're going to use the hyperbola. And then we can set them equal to each other, and solve for the m. So let's remind ourselves what the equation of the hyperbola is. They give it to us right over there. It's x squared over 9 minus y squared over 4 is equal to 1. Let me write this over here. So it is x squared over 9 minus y squared over 4 is equal to-- I'll write the y squared-- minus y squared over 4 is equal to 1. But now we can substitute the y squared with the y is equal to mx plus b that we got from the last video. And we actually figured out what y squared is equal to. Y squared is equal to all of this business up here. Because it's the same line. Remember, this is the whole point of it. We're trying to find two constraints on that same line. So we can rewrite this same thing. And actually one thing I want to do is I'm going to multiply both sides of this equation by 36, the common multiple of 9 and 4, so that I can get rid of these fractions. And so this is going to become 36-- let me write it this way-- so 36 divided by 9 is 4. So it's 4x squared minus-- 36 divided by 4 is 9-- and I would put a y squared here but we know that y squared is the exact same thing as this thing over here. So y squared is the same thing as m squared. x squared plus 2 mbx plus b squared. And then this is going to be equal to-- remember, we multiplied both sides of this equation by 36-- so this is going to be equal to 36. And let me simplify this. And we're going to do the exact same thing. We know that the m and b have to be such that, or the line has to have a slope and y-intercept where it'll only intersect with the hyperbola at one point. It'll only have one solution to this quadratic in terms of x. But let's simplify it first before we worry about that. So this is equal to 4 x squared minus 9 m squared x squared minus 18 mbx, minus 9 b squared. Just multiply it there. And let me subtract this 36 from both sides, so then we have minus 36 is equal to 0. So this is a quadratic in terms of x. But let me combine the various degree terms. So these are the x squared terms right over here. So this is the same thing as 4 minus 9 m squared times x squared. And then our only x term is this right over here. That's our only x term. So this is minus 18 mbx. And then our constant terms are right over here. So this over here is minus 9 b squared-- and let me write it this way, let me write it as minus 9-- well I'll just write it, minus 9 b squared minus 36. I'll just write it like that. And of course that is going to be equal to 0. And remember, quadratic formula, if we wanted to solve for the Xs, we'd have the quadratic formula, but we only want to have one solution. So the discriminant part of the quadratic formula is going to equal 0. The b squared minus 4 ac is going to be equal to 0. This is exactly what we did in the last video. So let's take the b squared minus 4ac and set that equal to 0, and then we'll have our constraints on m and b. So b squared is-- and remember don't get the squared in the quadratic formula confused with the b in the y-intercept. But this term squared is-- so this is going to be-- 18 squared m squared b squared, right? Negative 18 squared is just positive 18. Minus 4 times a. a is 4 minus 9 m squared times c. So I can rewrite c as negative 9 times b squared plus 4. Did I do that right? Negative 9 times b squared is negative 9 b squared. Negative 9 times 4 is negative 36. I want to make sure I don't make any careless mistakes. And so this becomes-- so if we just take the negative 9 and the negative 4-- they become a positive 36. They become a positive 36. And then we can actually, just to simplify things so we don't have to do too much fancy math, this 18 squared-- let's remember-- 18 squared is the same thing as-- well 18 squared is going to be divisible-- well I won't worry too much about that just yet. I just want to make sure that-- Actually let me write it this way. So 18 squared is 2 times 9 times 2 times 9. Or another way to think about it is 4 times 9 times 9. That's the same thing as 18 squared. 4 times 9 times 9. Now we can divide both of these terms-- and this whole thing, remember we want this whole thing to be equal to 0. The discriminant has to be equal to 0. So we can divide both sides of this equation by 36, which is the same thing as dividing by 4 times 9. So this term right over here, we could get rid of one 4 and one 4. And we're going to get a 9 m squared b squared over here. And then we divided by 36, so these all go away. So it's going to be 9 m squared b squared plus this thing times this thing. So let's see what that is. So we have a 4 times a b squared. So we have plus 4 b squared. Let me do this in a different color. I'll do it in blue. So plus 4 b squared. And then you have 4 times 4. So plus 16. And you have negative 9 m squared times b squared. So it's negative 9 m squared b squared. And then you have negative 9 m squared times 4. So negative 36 m squared. And that's going to be equal to 0. Lucky for us, that and that cancel out. And then we are left with something. And actually, what we're left with, everything is divisible by 4. So let's divide what we're left with by 4. So then we're left with b squared-- that's that term. And then minus 9 m squared. That's that term over there. Just divided it by 4. And then plus 4 is equal to 0. And once again, we could use-- well actually here, we don't have to do anything. We don't have to use quadratic formula. We could just solve for b. We could subtract this from both sides. And so we'll get b squared is equal to the square root of 9 m squared minus 4. Sorry-- let me just write this-- I don't want to skip steps here. b squared is equal to 9 m squared minus 4. They're painting the office right now, so maybe it's making me a little bit-- making my brain not work properly. Then b is equal to the square root of 9 m squared minus 4. Did I do that right? Let's see. I got the 4. Yeah, it looks right. And so we're left with a situation where the b-- if we're saying that if the line is tangent to the hyperbola it to be this, and if the line is tangent to the circle b has to be equal to this, this business over here. So let me copy it and then let me paste it. Let me paste it. Just like that. And so we now have two equations with two unknowns. We can set these equal to each other and solve for m. And this will give us the m or the slope of that tangent line. And then we can go ahead and solve for b. I'll do that in the next video.