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A LevelMaths: Pure 3CIEPractice Paper QuestionsSet CPractice Paper 3 (Pure 3)

Practice Paper 3 (Pure 3) (CIE A Level Maths: Pure 3)

Practice Paper Questions

1a
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Solve the equation

4 to the power of 3 x plus 2 end exponent equals 16 to the power of x plus 6 end exponent

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1b
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Solve the equation

4 to the power of 2 x plus 3 end exponent minus 8 equals 92

giving your answer to 3 significant figures.

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2
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Find, in ascending powers of x, the binomial expansion of

            begin mathsize 22px style begin inline style 1 over open parentheses 4 plus 8 x close parentheses squared end style end style

up to and including the term in x cubed.

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3a
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Show that the equation  3 tan2 x equals 18 minus 2 sec x  can be written as

3 sec2 x plus 2sec x minus 21 equals 0

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3b
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Hence, or otherwise, solve the equation

3 tan2 x equals 18 minus 2 sec x comma space space space space space space space space space space space space space space space space space space space space space space minus straight pi less or equal than space x less or equal than straight pi

Give your answers to three significant figures.

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4a
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Show that if  y equals cosec 2 x , then 

fraction numerator d y over denominator d x end fraction equals negative 2 cosec space 2 x space cot space 2 x

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4b
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Hence find the gradient of the tangent to the curve space y equals cos e c space 2 x space at the point with coordinates open parentheses pi over 3 comma fraction numerator 2 square root of 3 over denominator 3 end fraction close parentheses

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5a
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Express

fraction numerator x squared minus 4 x plus 7 over denominator open parentheses x minus 1 close parentheses open parentheses x minus 3 close parentheses squared end fraction


as partial fractions.

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5b
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Hence, or otherwise, find

integral fraction numerator x squared minus 4 x plus 7 over denominator open parentheses x minus 1 close parentheses open parentheses x minus 3 close parentheses squared end fraction space straight d x

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6a
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The diagram below shows the graphs of space y equals x space and y equals g left parenthesis x right parenthesis.

QpsJxjGx_q1a-10-1-solving-equations-hard-a-level-maths-pure

Show on the diagram, using the value of x subscript 0 indicated, how an iterative process will lead to a sequence of estimates that converge to the x-coordinate of the point P.
Mark the estimates space x subscript 1and x subscript 2 on your diagram.

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6b
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By finding a suitable iterative formula, use x subscript 0 equals 2 to estimate a root to the equationx minus sin space 0.8 x equals 2.5 correct to two significant figures.

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6c
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Confirm that your answer to part (b) is correct to two significant figures.

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7a
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Show that

integral tan space k x space straight d x equals 1 over k ln space open vertical bar sec space k x close vertical bar plus c

where k is a constant, and c is the constant of integration.

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7b
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Use calculus to find the exact value of

integral subscript straight pi over 18 end subscript superscript straight pi over 9 end superscript fraction numerator cosec 3 theta space over denominator 3 c o t space 3 theta end fraction space straight d theta

writing your answer in the form  a ln b , where a and b are rational numbers to be found.

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8
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A large container of water is leaking at a rate directly proportional to the square of the volume of water in the container.

(i)
Given that the initial volume of water in the container is 4000 litres and that after 10 minutes the volume of water in the container has dropped by 30%, write down and solve a differential equation connecting the volume, V, of water in the container to the time, t.

 

(ii)
What does your solution predict will happen to the volume of water in the container after a very long time?

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9a
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The coordinates of three points are A left parenthesis 2 comma negative 1 comma 5 right parenthesis comma space space B left parenthesis 4 comma 1 comma 1 right parenthesis and  C left parenthesis negative 2 comma negative 5 comma 9 right parenthesis.

Find stack B A with rightwards arrow on top and stack B C with rightwards arrow on top.

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9b
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By considering the scalar product stack B A with rightwards arrow on top times stack B C with rightwards arrow on top, or otherwise, calculate the angle between stack B A with rightwards arrow on top and  stack B C with rightwards arrow on top.  Give your answer in degrees, accurate to 1 decimal place.

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10a
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Given that z subscript 1 equals 5 plus 7 i and z subscript 2 equals 2 minus i:

Work out  z subscript 1 cross times space z subscript 2 superscript asterisk times and z subscript 2 cross times z subscript 2 superscript asterisk times

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10b
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Hence or otherwise work out z subscript 1 over z subscript 2, giving your answer in the form a plus b i where a and b are real numbers.

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11a
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On an Argand diagram, sketch the loci (i.e., sets of points) for which each of the following equations is true:

(i)
arg left parenthesis z plus 2 minus 2 i right parenthesis equals pi over 4
(ii)
vertical line z minus 3 minus 2 i vertical line equals 5

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11b
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Shade the region of your diagram that satisfies both of the following inequalities:

0 less or equal than arg left parenthesis z plus 2 minus 2 i right parenthesis less or equal than pi over 4 space space space space space and space space space space vertical line z minus 3 minus 2 i vertical line less or equal than 5

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12a
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The rare Leaping Unicorn jumps in such a way that the length of a jump is always the same distance.  However, the maximum height a Leaping Unicorn reaches during a jump reduces gradually over time as the unicorn tires.

The way in which Leaping Unicorns jump can be modelled by the function

h left parenthesis x right parenthesis equals vertical line A open parentheses e to the power of negative k x end exponent close parentheses sin x vertical line          x greater or equal than 0

where x is the horizontal distance covered and h is the height, both measured in metres.
A and k are both positive constants.

(i)      Write down the length of a Leaping Unicorn jump.

(ii)     Briefly describe how changing the value of the constant k would affect the

         model.

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12b
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During its first jump, a Leaping Unicorn reaches a maximum height of 1.288 metres after covering 1.471 metres over the ground.
Find the values of A spaceand k.

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12c
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What is the total distance of ground covered by a Leaping Unicorn when it is at the maximum height of its third jump?

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