michaeljennings
Active Member
The graph of 
has turning points at x=2 and x=-1. Find the values of k such that the equation has 3 real and distinct roots
How do you do this question?
How do you do this question?
Polynomial Question (1 Viewer)
- Thread starter michaeljennings
- Start date
Imagine you have a (rigid wire) graph ofThe graph of
How do you do this question?
and move it up k unit (or down k units if k is negative. You get 3 roots only when the repositioned graph cuts the x-axis at 3 distinct points.
michaeljennings
Active Member
ohhh right but how do you approach this question, like how do you begin?Imagine you have a (rigid wire) graph of
and move it up k unit (or down k units if k is negative. You get 3 roots only when the repositioned graph cuts the x-axis at 3 distinct points.
You then do as suggested by b3kh1t. You will find the turning points at x = -1 (a max) and x=2 (a min). For
That means: You should not push up the graph of y = f(x) more than 20 nor down more than 7 units.
i.e. -7 < k < 20.
Last edited:
michaeljennings
Active Member
i dont understand how to do itttttttttt
If you find the first and second derivative you find x=-1 is a max turning point, and x=2 is a min turning point.
If i sub x=2 into y, i get:
=2(2)^{3}-3(2)^{2}-12(2)+k=k-20)
so that means (2, k-20) is my mim turning point
If i sub x=-1 into y, i get:
=2(-1)^{3}-3(-1)^{2}-12(-1)+k=k +7)
therefore (-1, k+7) is my max turning point.
If i plot these two points on a number plane and sketch the curve i see that when k=20 i will only have 2 distinct roots, so therefore k<20,
also, when k = -7 i will only have two distinct roots, so k>-7.
Therefore, for y to have 3 distinct real roots :
-7< k < 20
If i sub x=2 into y, i get:
so that means (2, k-20) is my mim turning point
If i sub x=-1 into y, i get:
therefore (-1, k+7) is my max turning point.
If i plot these two points on a number plane and sketch the curve i see that when k=20 i will only have 2 distinct roots, so therefore k<20,
also, when k = -7 i will only have two distinct roots, so k>-7.
Therefore, for y to have 3 distinct real roots :
-7< k < 20
HyperComplexxx
ლ(ಠ_ಠ ლ)
you let a line be y = k
then you draw it onto the polynomial, finding the region in which y = k intercepts the graph
then you draw it onto the polynomial, finding the region in which y = k intercepts the graph
michaeljennings
Active Member
apollo1
Banned
- Joined
- Sep 19, 2011
- Messages
- 938
- Gender
- Male
- HSC
- 2011
i made a mistake with the actual answer. math mans answers the right one.
michaeljennings
Active Member
thanks i would rep you but i cant rep you til i share it with othersIf you find the first and second derivative you find x=-1 is a max turning point, and x=2 is a min turning point.
If i sub x=2 into y, i get:
so that means (2, k-20) is my mim turning point
If i sub x=-1 into y, i get:
therefore (-1, k+7) is my max turning point.
If i plot these two points on a number plane and sketch the curve i see that when k=20 i will only have 2 distinct roots, so therefore k<20,
also, when k = -7 i will only have two distinct roots, so k>-7.
Therefore, for y to have 3 distinct real roots :
-7< k < 20
lol thxs