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Cambridge Prelim MX1 Textbook Marathon/Q&A (1 Viewer)

appleibeats

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Find the values of a for which z - ai is factor of the equation

Is it factor theorem ?? Seems tedious?
 

appleibeats

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Sorry,

z^4 - 2z^3 + 7z^2 - 4z + 10 = 0
 

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Find the values of a for which z - ai is factor of the equation

Is it factor theorem ?? Seems tedious?
Sorry,

z^4 - 2z^3 + 7z^2 - 4z + 10 = 0
This is an imaginary number question, why is it in the year 11 3U thread? Anyway, this is how I'd work it out, and yes it does use the factor theorem.

 

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Let z = cisE and w = cisB, that is |z| = |w| = 1. Evaluate z + w in mod-arg form and hence show that arg(z+w) = 1/2 (arg z + arg w)

The hint given is to use sums to products

Answer is z + w = 2cos((E-B)/2) cis((E+B)/2)
 

kawaiipotato

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Let z = cisE and w = cisB, that is |z| = |w| = 1. Evaluate z + w in mod-arg form and hence show that arg(z+w) = 1/2 (arg z + arg w)

The hint given is to use sums to products

Answer is z + w = 2cos((E-B)/2) cis((E+B)/2)
use the formula: cos(a) + cos(b) = 2cos((a+b)/2)cos((a-b)/2)
and sin(a) + sin(b) = 2cos((a+b)/2)sin((a-b)/2)
when finding z+w
 

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appleibeats

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Let z = 1 + cosE + isinE

a) Show that |z| = 2cosE/2 and argz = E/2

b) Hence show taht z^-1 = 1/2 - 1/2 itanE/2
 

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Prove that the point z1 ,z2, z3 are collinear if (z3 - z1)/ ( z2 - z1 ) is real

Hence show that the points representing 5 = 8i , 13 + 20i, and 19 + 29i are collinear
 

InteGrand

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Prove that the point z1 ,z2, z3 are collinear if (z3 - z1)/ ( z2 - z1 ) is real

Hence show that the points representing 5 = 8i , 13 + 20i, and 19 + 29i are collinear






 

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

If z1 = 4 - 1 and z2 = 2i , find in each case the two possible values of z3 so that the points representing z1, z2,z3 form an isosceles right angled triangle with right angle at :

z1
 

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Can't you just multiply the point z1 by i. Why is this wrong???
 

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Answers are 1 - 5i, and 7 + 3i
 

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Can't you just multiply the point z1 by i. Why is this wrong???
Note that if we have two vertices of an isosceles right-angled triangle in the plane and we specify which vertex is the right angle, we'll have two possible locations for the third vertex.

Furthermore, multiplying z1 by i would rotate z1 by 90º counter-clockwise about the origin, which is not what we want to do.
 

kawaiipotato

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Why is this wrong???
Note that if we have two vertices of an isosceles right-angled triangle in the plane and we specify which vertex is the right angle, we'll have two possible locations for the third vertex.

Furthermore, multiplying z1 by i would rotate z1 by 90º counter-clockwise about the origin, which is not what we want to do.
We should be multiplying the side joining z2 and z1 by +/- i instead, to find the side joining z3 and z1.
The side joining z2 and z1 is vector z2 - z1, with the rotated side being z3 - z2
So (z2-z1)i = z3 - z1, expand and rearrange to solve for z3
Similarly, -(z2-z1)i = z3 - z1
 
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kawaiipotato

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Why is this wrong???
Note that if we have two vertices of an isosceles right-angled triangle in the plane and we specify which vertex is the right angle, we'll have two possible locations for the third vertex.

Furthermore, multiplying z1 by i would rotate z1 by 90º counter-clockwise about the origin, which is not what we want to do.
So we should be multiplying the side joining z2 and z1 by +/- i instead, to find the third vertex.
The side joining z2 and z1 is vector z2 - z1
 

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

Cheers I worked it out
 

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Re: Year 11 Mathematics 3 Unit Cambridge Question & Answer Thread

How would you solve:

Given that z1 = 1 + i , z2 = 2 + 6i , z3 = -1 + 7i , find the three possible values of z4 so that the points representing z1, z2, z3 and z4 form a parallelogram.
 

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