IB Questionbank Mathematical Studies 3rd edition. Quadratics. 112 min 110 marks. y l

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IB Questionbank Mathematical Studies 3rd edition Quadratics 112 min 110 marks 1. The following diagram shows a straight line l. 10 8 y l 6 4 2 0 0 1 2 3 4 5 6 (a) Find the equation of the line l. The line n is parallel to l and passes through the point (0, 8). Write down the equation of the line n. The line n crosses the horizontal ais at the point P. Find the coordinates of P. (Total 4 marks)

2. The line L 1 shown on the set of aes below has equation 3 + 4y = 24. L 1 cuts the -ais at A and cuts the y-ais at B. Diagram not drawn to scale y L 1 B L 2 M O C A (a) Write down the coordinates of A and B. M is the midpoint of the line segment [AB]. Write down the coordinates of M. The line L 2 passes through the point M and the point C (0, 2). Write down the equation of L 2. (d) Find the length of (i) (ii) MC; AC.

(e) The length of AM is 5. Find (i) the size of angle CMA; (3) (ii) the area of the triangle with vertices C, M and A. (Total 15 marks) 3. (a) Represent the function y = 2 2 5, where { 2, 1, 0, 1, 2, 3} by a mapping diagram. y List the elements of the domain of this function. List the elements of the range of this function.

4. The graph of the function y = 2 2 is drawn below. y A 0 B C (a) Write down the coordinates of the point C. Calculate the coordinates of the points A and B. (Total 8 marks)

5. The diagram shows the graph of y = 2 2 8. The graph crosses the -ais at the point A, and has a verte at B. y A O B (a) Factorize 2 2 8. Write down the coordinates of each of these points (i) A; (ii) B. (Total 4 marks) 6. (a) Sketch the graph of the function y = 2 2 6 + 5. Write down the coordinates of the local maimum or minimum of the function. Find the equation of the ais of symmetry of the function. 7. (a) Solve the equation 2 5 + 6 = 0. Find the coordinates of the points where the graph of y = 2 5 + 6 intersects the -ais. (Total 4 marks)

8. Let f() = 2 6 + 8. (a) Factorise 2 6 + 8. Hence, or otherwise, solve the equation 2 6 + 8 = 0. Let g() = + 3. Write down the solutions to the equation f() = g(). 9. A quadratic curve with equation y = a( b) is shown in the following diagram. The -intercepts are at (0, 0) and (6, 0), and the verte V is at (h, 8). (a) Find the value of h. Find the equation of the curve. (4)

10. The following is the graph of the quadratic function y = f(). (a) Write down the solutions to the equation f() = 0. Write down the equation of the ais of symmetry of the graph of f(). The equation f() = 12 has two solutions. One of these solutions is = 6. Use the symmetry of the graph to find the other solution. (d) The minimum value for y is 4. Write down the range of f().

11. The graph of y = 2 2 r + q is shown for 5 7. The graph cuts the y-ais at (0, 4). (a) Write down the value of q. The ais of symmetry is = 2.5. Find the value of r. Write down the minimum value of y. (d) Write down the range of y.

12. Two functions are defined as follows f () = 6 for 0 < 6 6 for 6 g () = 1 2 (a) Draw the graphs of the functions f and g in the interval 0 14, 0 y 8 using a scale of 1 cm to represent 1 unit on both aes. (5) (i) Mark the intersection points A and B of f () and g () on the graph. (ii) Write down the coordinates of A and B. (3) Calculate the midpoint M of the line AB. (d) Find the equation of the straight line which joins the points M and N. (4) (Total 14 marks)

13. The perimeter of this rectangular field is 220 m. One side is m as shown. W m (a) Epress the width (W) in terms of. m Write an epression, in terms of only, for the area of the field. If the length () is 70 m, find the area. (Total 4 marks) 14. (a) Factorise the epression 2 k. Hence solve the equation 2 k = 0. The diagram below shows the graph of the function f() = 2 k for a particular value of k. Write down the value of k for this function.

(d) Find the minimum value of the function y = f(). (3) 15. The profit (P) in Swiss Francs made by three students selling homemade lemonade is modelled by the function 1 P = 2 + 5 30 20 where is the number of glasses of lemonade sold. (a) Copy and complete the table below 0 10 20 30 40 50 60 70 80 90 P 15 90 75 50 (3) On graph paper draw aes for and P, placing on the horizontal ais and P on the vertical ais. Use suitable scales. Draw the graph of P against by plotting the points. Label your graph. (5) Use your graph to find (i) (ii) (iii) (iv) the maimum possible profit; the number of glasses that need to be sold to make the maimum profit; the number of glasses that need to be sold to make a profit of 80 Swiss Francs; the amount of money initially invested by the three students. (d) The three students Baljeet, Jane and Fiona share the profits in the ratio of 1:2:3 respectively. If they sold 40 glasses of lemonade, calculate Fiona s share of the profits. (Total 15 marks)

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