- Messages
- 1,532
- Reaction score
- 478
- Points
- 93
Check out khanacademy.com. But they don't exactly follow the syllabus.
And no, that's all I have right now.
-
We need your support!
We are currently struggling to cover the operational costs of Xtremepapers, as a result we might have to shut this website down. Please donate if we have helped you and help make a difference in other students' lives!
Click here to Donate Now (View Announcement)
Further Mathematics: Post your doubts here!
- Thread starter abcde
- Start date
And no, that's all I have right now.
- Messages
- 133
- Reaction score
- 47
- Points
- 38
Got an A* (Alhamdulillah!) in Further Mathematics (9231) in this Oct/Nov session.
- Messages
- 3
- Reaction score
- 0
- Points
- 1
Help please june 2005 paper 1 question 10(complex)
second part
second part
You have listed the roots for (a) w^12 = 1.
Now, you have (z+2)^12 = z^12
z = 0 is not a root of the given equation, hence we can divide by z^12, with justification
you get
{(z+2)/z } ^12 = 1
Making a substitution y = (z+2)/z;
you obtain the equation from (a). However, the task is to show that is has 10 non-real roots. Let us find all the roots at first.
y^12 = 1 has 12 roots: 1, -1 and 10 non-real
let us write these roots as (cos A + i*sin A), where A is dependent on natural k (in fact, A = 2pi*k/12, k = 0,6, +-1,2,3,4,5, A is introduced for convenience)
now, after we have found the roots for y, let us find roots z:
(z + 2) / z = cos A + i sin A
then, 1 + 2/z = cos A + i sin A
2/z = cos A + i sin A - 1
z = 2/ (cos A + i sin A - 1)
Multiplying by conjugate, note that conjugate is (cos A - 1 - i sin A), not (cos A + i sin A +1)
[some digression here: we should justify that we are multiplying by a number (cos A - 1 - i sin A). we cannot multiply by 0 (!) so,
cos A - 1 - i sin A = 0 implies that cos A = 1. In turn, A = 0. hence, z = 1, which is NOT a root of the given equation, so cos A - 1 - i sin A is not = 0, hence we justified the multiplication(or we can say that we are not interested in cases when cos A=1, because z = 1 is not a root) ]
z = 2* (cos A - 1 - i sin A) / { (cos A-1)^2 - i^2 * sin^2(A) }
Simplify denominator first,
(cos A - 1)^2 + sin^2(A) = cos(A)^2 + sin^2(A) - 2 cos A + 1 = 2 - 2 cos A = 2 (1 - cos A)
then, z = 2*(cos A - 1 - i sin A) / 2 (1 - cos A)
z = (cos A - 1)/ ( 1 - cos A) - i sin A/ (1 - cos A)
Using formula from trigonometry, tan (A/2) = (1 - cos A)/ sin A; obtain
z = -1 - i*cot(A/2), that is what required. then exclude the possibility A = pi (hence k = 6), since then z = -1 and it is not a non-real number. (so the equation in (b) has 10 non-real roots and -1)
- Messages
- 3
- Reaction score
- 0
- Points
- 1
Does anyone has notes on "using de moivre's theorem in the summation of series"?
please help urgent :s
please help urgent :s
- Messages
- 887
- Reaction score
- 466
- Points
- 73
suggest a book for furthur maths
- Messages
- 6
- Reaction score
- 0
- Points
- 1
I need further mathematics 2001 cie pastpapers urgently
please help me its an emergency
please help me its an emergency
- Messages
- 6
- Reaction score
- 0
- Points
- 1
CIE 2008 may-june Q.11 (differential equation)
please help me solve both part of the question
please help me solve both part of the question
- Messages
- 133
- Reaction score
- 47
- Points
- 38
- Messages
- 887
- Reaction score
- 466
- Points
- 73
which book did u use to study a level f maths
- Messages
- 17
- Reaction score
- 3
- Points
- 13
hey guys my vector space is really bad..do u guys hav any helpful notes ?????...plz share it..
- Messages
- 5
- Reaction score
- 0
- Points
- 1
Here's a question for you guys:
A quadratic equation x^2 + bx + c has two real roots which may be distinct or equal. Denoting these roots by r and m, prove that r^(2^n) + m^(2^n) is a polynomial of c in degree 2^(n-1) with leading coefficient 2.
A quadratic equation x^2 + bx + c has two real roots which may be distinct or equal. Denoting these roots by r and m, prove that r^(2^n) + m^(2^n) is a polynomial of c in degree 2^(n-1) with leading coefficient 2.
hi guys,
i've been working on momentum and impulse,but i'm getting some difficulty concerning coeff. of restitution on inclined planes.
here's an example:
A ball drops vertically onto a smooth plane inclined to the horizontal at an angle α. It hits the plane
with speed 8ms−1 and rebounds horizontally. The coefficient of restitution between the ball and the
plane is 1/3.
Find the value of α and the speed with which the ball rebounds.
(j06/1)
i would really appreciate it if anybody could help me out with this question.
thanks.
i've been working on momentum and impulse,but i'm getting some difficulty concerning coeff. of restitution on inclined planes.
here's an example:
A ball drops vertically onto a smooth plane inclined to the horizontal at an angle α. It hits the plane
with speed 8ms−1 and rebounds horizontally. The coefficient of restitution between the ball and the
plane is 1/3.
Find the value of α and the speed with which the ball rebounds.
(j06/1)
i would really appreciate it if anybody could help me out with this question.
thanks.
- Messages
- 133
- Reaction score
- 47
- Points
- 38
Hey guys! I'm posting a link to a facebook group page meant to help out those having hard times with, yet a strong spirit for Further Maths. Post your questions over there, and you'd get a way out, hopefully! 
http://www.facebook.com/groups/544235545611352/
http://www.facebook.com/groups/544235545611352/
- Messages
- 3
- Reaction score
- 0
- Points
- 1
Hey guys, please help:
june 2008 paper 1 question 10 complex
please..
june 2008 paper 1 question 10 complex
please..
- Messages
- 1,594
- Reaction score
- 483
- Points
- 93
Q4. Last part which involves 'applying sum of squares to obtain result'. I'm unable to see how 2^2 + 4^2 + ....+ (n-1)^2 = the given result.