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Yet another locus question (1 Viewer)

z600

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a parabola with the vertext (-1,-1) meets xy=1 again at A and B, find M (mid point of of A and B) and hence the locus.

I used y=a(x-h)^2+k

i subbed in (-1, -1) and found the two roots and the mid point to be 3? then its just a mess from then onwards.

ALSO

WHen a polynomial is divided by (2x+1)(x-3), the remainder is 3x-1, What is the remainder when the polynomial is divided by 2x+1?
 
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Evergreen

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Trebla said:
What is "find M of A and B" supposed to mean?

For the second one:
Let P(x) be the unknown polynomial
when we divide this polynomial we get a quotient Q(x) plus remainder 3x - 1, so:
P(x) / [(2x + 1)(x - 3)] = Q(x) + {3x - 1}
NB: the thing in {} is the remainder

now what happens when we divide by 2x + 1 only? mulitply both sides by (x - 3)
P(x) / (2x + 1) = (x - 3)Q(x) + {(3x - 1)(x - 3)}
Remember that the thing in the thing in {} is the remainder as (x - 3)Q(x) is the new quotient

.: Remainder is (3x - 1)(x - 3)

I think that seems right....
Thats a pretty neat way to do it and I think he is talking about the midpoint of the line AB.
 

z600

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I did it that way at first but its wrong...the answer is 1/2

I got -2.5 as the answer and my teacher agrees with me
 

Chinmoku03

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z600 said:
a parabola with the vertext (-1,-1) meets xy=1 again at A and B, find M (mid point of of A and B) and hence the locus.

I used y=a(x-h)^2+k

i subbed in (-1, -1) and found the two roots and the mid point to be 3? then its just a mess from then onwards.
Ok, if the vertex of a parabola is (-1, -1), then its equation should be y = (x+1)2-1. Since xy = 1, y = 1/x. Equate the two equations to get 1/x = x2+2x, which can be rearranged to x2+2x- (1/x) = 0. Multiply both sides by x to give x3+2x2-1 = 0.

Now, since x = -1 is a root of this equation, x3+2x2-1 can be written as (x+1)(x2+ax-1). Comparing the coefficients of x2, 2 = 1+a, therefore a = 1. So x3+2x2-1 can then be written as (x+1)(x2+x-1). Since x3+2x2-1 = 0, then (x+1)(x2+x-1) = 0. Using the quadratic formula, x1 = (-1+sqrt5)/2 and x2 = (-1-sqrt5)/2, where sqrt means square root.

Sub x1 and x2 back into either the equation of the parabola or hyperbola to find the value of y1 and y2 respectively. After that, finding the midpoint's easy, just rather tedious. M = (-1/2, -1/2) from my working out.

Sorry, but I don't remember how to work out the locus anymore unless it's parametric >.<; Does anybody else have an idea?
 

Trebla

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Oh Crap, I just realised I did it wrong...ignore what I said earlier....lol
Here's the correct answer (I hope!)
Let P(x) be the unknown polynomial
when we divide this polynomial we get a quotient Q(x) plus remainder 3x - 1, so:
P(x) / [(2x + 1)(x - 3)] = Q(x) + (3x - 1) / [(2x + 1)(x - 3)]
i.e. P(x) = (2x + 1)(x - 3)Q(x) + 3x - 1

now when we divide by (2x + 1), we can use the remainder theorem:
P(-1/2) = 0 - 3/2 - 1
Hence the remainder is - 5/2
 

Trebla

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The equation of the parabola is much more general than that. It can scale according to multiples of its coefficients.

Let the equation of the parabola be y = a(x + 1)² - 1
To find points of intersection:
1/x = a(x + 1)² - 1
.: ax³ + 2ax² + x(a - 1) - 1 = 0
We know that one of the points of intersection and hence a root of this equation is x = - 1. Let the other two roots be x1 and x2.
Sum of roots: x1 + x2 - 1 = - 2
.: (x1 + x2)/2 = -1/2

Now solve for y coordinates:
y = a(1/y + 1)² - 1
.: y³ - y²(a - 1) - 2ay - a = 0
We know that one of the points of intersection and hence a root of this equation is y = - 1. Let the other two roots be y1 and y2.
Sum of roots: y1 + y2 - 1 = a - 1
.: (y1 + y2)/2 = a/2

.: M (-1/2 , a/2)

The locus of M is pretty obvious once you found it. Since 'a' can vary for any non-zero real number, the locus should simply be x = -1/2
 

z600

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onebytwo said:
hey z600, please make another post asap, seeing 666 is unsettling.
LOL thanks guys

For the Polynimial one, i got -2.5 as well but the answer says 0.5
And apparantly, when you shove in a polynomial function both 0.5 or -2.5 doesnt work:mad1: :mad1:
 

Trebla

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z600 said:
For the Polynimial one, i got -2.5 as well but the answer says 0.5
And apparantly, when you shove in a polynomial function both 0.5 or -2.5 doesnt work:mad1: :mad1:
Are you sure they don't work?
Consider the polynomial P(x) = 2x² - 2x - 4
If you expand (2x + 1)(x - 3) + 3x - 1, you should get that polynomial P(x), so it does give a remainder of 3x - 1 when divided by (2x + 1)(x - 3)
When you divide P(x) by (2x + 1), you get a quotient of (x - 3/2), with a remainder of - 5/2....
 

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