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Date November 2021 Marks available 2 Reference code 21N.2.AHL.TZ0.5
Level Additional Higher Level Paper Paper 2 Time zone Time zone 0
Command term Express Question number 5 Adapted from N/A

Question

Let z=1i.

Let w1=eix and w2=ei(xπ2), where x.

The current, I, in an AC circuit can be modelled by the equation I=acos(btc) where b is the frequency and c is the phase shift.

Two AC voltage sources of the same frequency are independently connected to the same circuit. If connected to the circuit alone they generate currents IA and IB. The maximum value and the phase shift of each current is shown in the following table.

When the two voltage sources are connected to the circuit at the same time, the total current IT can be expressed as IA+IB.

Plot the position of z on an Argand Diagram.

[1]
a.i.

Express z in the form z=aeib, where a, b, giving the exact value of a and the exact value of b.

[2]
a.ii.

Find w1+w2 in the form eixc+id.

[2]
b.i.

Hence find Rew1+w2 in the form Acosx-a, where A>0 and 0<aπ2.

[4]
b.ii.

Find the maximum value of IT.

[3]
c.i.

Find the phase shift of IT.

[1]
c.ii.

Markscheme

         A1

 

[1 mark]

a.i.

z=2eiπ4          A1A1


Note: Accept an argument of 7π4. Do NOT accept answers that are not exact.

 

[2 marks]

a.ii.

w1+w2=eix+eix-π2

                =eix1+e-iπ2          (M1)

                =eix1-i          A1

 

[2 marks]

b.i.

w1+w2=eix×2e-iπ4           M1

=2eix-π4           (A1)

attempt extract real part using cis form           (M1)

Rew1+w2=2cosx-π4  OR  1.4142cosx-0.785398           A1

 

[4 marks]

b.ii.

It=12cosbt+12cosbt-π2           (M1)

It=12 Reeibt+eibt-π2           (M1)

It=122cosbt-π4

max =122 =17.0           A1

 

[3 marks]

c.i.

phase shift =π4 =0.785           A1

 

[1 mark]

c.ii.

Examiners report

This question produced the weakest set of responses on the paper. There seemed a general lack of confidence when tackling a problem involving complex numbers. Whilst most candidates could represent a complex number on the complex plane, far fewer had the ability to move between the different forms of complex numbers. This is clearly an area of the course that needs more attention when being taught. Part (c) is challenging but it should be noted that a candidate who has answered parts (a) and (b) with confidence should find this both straightforward, and also an example of a type of problem that is mentioned in the syllabus guidance.

a.i.

This question produced the weakest set of responses on the paper. There seemed a general lack of confidence when tackling a problem involving complex numbers. Whilst most candidates could represent a complex number on the complex plane, far fewer had the ability to move between the different forms of complex numbers. This is clearly an area of the course that needs more attention when being taught. Part (c) is challenging but it should be noted that a candidate who has answered parts (a) and (b) with confidence should find this both straightforward, and also an example of a type of problem that is mentioned in the syllabus guidance.

a.ii.

This question produced the weakest set of responses on the paper. There seemed a general lack of confidence when tackling a problem involving complex numbers. Whilst most candidates could represent a complex number on the complex plane, far fewer had the ability to move between the different forms of complex numbers. This is clearly an area of the course that needs more attention when being taught. Part (c) is challenging but it should be noted that a candidate who has answered parts (a) and (b) with confidence should find this both straightforward, and also an example of a type of problem that is mentioned in the syllabus guidance.

b.i.

This question produced the weakest set of responses on the paper. There seemed a general lack of confidence when tackling a problem involving complex numbers. Whilst most candidates could represent a complex number on the complex plane, far fewer had the ability to move between the different forms of complex numbers. This is clearly an area of the course that needs more attention when being taught. Part (c) is challenging but it should be noted that a candidate who has answered parts (a) and (b) with confidence should find this both straightforward, and also an example of a type of problem that is mentioned in the syllabus guidance.

b.ii.

This question produced the weakest set of responses on the paper. There seemed a general lack of confidence when tackling a problem involving complex numbers. Whilst most candidates could represent a complex number on the complex plane, far fewer had the ability to move between the different forms of complex numbers. This is clearly an area of the course that needs more attention when being taught. Part (c) is challenging but it should be noted that a candidate who has answered parts (a) and (b) with confidence should find this both straightforward, and also an example of a type of problem that is mentioned in the syllabus guidance.

c.i.

This question produced the weakest set of responses on the paper. There seemed a general lack of confidence when tackling a problem involving complex numbers. Whilst most candidates could represent a complex number on the complex plane, far fewer had the ability to move between the different forms of complex numbers. This is clearly an area of the course that needs more attention when being taught. Part (c) is challenging but it should be noted that a candidate who has answered parts (a) and (b) with confidence should find this both straightforward, and also an example of a type of problem that is mentioned in the syllabus guidance.

c.ii.

Syllabus sections

Topic 1—Number and algebra » AHL 1.12—Complex numbers introduction
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