Exam-Style Questions.Problems adapted from questions set for previous Mathematics exams. |
1. | IGCSE Extended |
OABC is a parallelogram with O as origin. The position vector of A is \(a\) and the position vector of C is \(c\).
F is the mid-point of AB and the point E divides the line OC such that OE:EC = 2:1.
The point E also divides the line AD such that AE:ED = 3:2.
Find the following in terms of \(a\) and \(c\).
(a) \(\overrightarrow{OB}\)
(b) \(\overrightarrow{AC}\)
(c) \(\overrightarrow{AE}\)
(d) the position vector of F.
(e) \(\overrightarrow{AD}\)
(f) \(\overrightarrow{BD}\)
2. | GCSE Higher |
ABCD is a quadrilateral. The points E, F, G and H are the midpoints of the sides of this quadrilateral.
$$\vec{CH} = a, \vec{DG} = b \text{ and } \vec{DF} = c$$Show that HG is parallel to EF.
3. | IGCSE Extended |
ABCDOE is a regular hexagon with O as origin. The position vector of A is \(a\) and the position vector of B is \(b\).
Find the following in terms of \(a\) and \(b\).
(a) \(\overrightarrow{BA}\)
(b) \(\overrightarrow{OE}\)
(c) the position vector of C.
If the sides of the hexagon are each of length 10cm calculate:
(d) the size of angle \(BCD\).
(e) the area of triangle \(BCD\).
(f) the length of the line from B to D.
(g) the area of the hexagon.
4. | GCSE Higher |
Consider a triangle ABC where M is the midpoint of AB and F is the point on BC where BF:FC = 3:4.
(a) If \(\overrightarrow{AB}=b\) and \(\overrightarrow{AC}=c\) work out \(\overrightarrow{MF}\) in terms of \(b\) and \(c\) giving your answer in its simplest form.
(b) Use your answer to part (a) to explain whether MF is parallel to AC or not.
5. | GCSE Higher |
In the parallelogram OABC two of the sides can be represented by vectors \(a\) and \(c\).
\( \overrightarrow{OA} = a \) and \( \overrightarrow{OC} = c \)
\( X \) is the midpoint of the line \( AC \).
\( OCD \) is a straight line such that \(OC:CD = k:1 \)
Given that \( \overrightarrow{XD} = 3c - \frac12 a \) find the value of \( k \).
6. | IGCSE Extended |
(a) If A is the point (3,5) write down the position vector of A.
(b) If B is the point (6,9) find \(\mid\overrightarrow{AB} \mid\) the magnitude of \( \overrightarrow{AB}\).
The following diagram is not to scale.
\(O\) is the origin, \(\overrightarrow{OP}=p\) and = \(\overrightarrow{OQ}=q\).
\(OP\) is extended to \(R\) so that \(OP=PR\).
\(OQ\) is extended to \(S\) so that \(OQ=QS\).
(c) Write down \(\overrightarrow{RQ}\) in terms of \(p\) and \(q\).
(d) \(PS\) and \(RQ\) intersect at \(M\) and \(RM=2 MQ\).
Use vectors to find the ratio \(PM:PS\), showing all your working.
7. | GCSE Higher |
In the diagram above (not drawn to scale) \(X\) is the point on \(AB\) such that \(AX:XB = 9:4\).
The position vector of \(A\) is \(3a\) and the position vector of \(B\) is \(3b\).
Find the value of \(k\) if \(\vec{OX} = k(4a + 9b)\) where \(k\) is a scalar quantity.
8. | IB Standard |
The line L is parallel to the vector \(\begin{pmatrix} 2 \\ 5 \\ \end{pmatrix} \),
(a) Find the gradient of the line L .
The line L passes through the point (11, 3).
(b) Write down the equation of the line L in the form \(y=ax+b\)
(c) Find a vector equation for the line L.
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