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Semelhante a X2 t02 01 factorising complex expressions (2013)
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X2 t02 01 factorising complex expressions (2013)
- 2. Factorising Complex Expressions If a polynomial’s coefficients are all real then the roots will appear in complex conjugate pairs.
- 3. Factorising Complex Expressions If a polynomial’s coefficients are all real then the roots will appear in complex conjugate pairs. Every polynomial of degree n can be; • factorised as a mixture of quadratic and linear factors over the real field
- 4. Factorising Complex Expressions If a polynomial’s coefficients are all real then the roots will appear in complex conjugate pairs. Every polynomial of degree n can be; • factorised as a mixture of quadratic and linear factors over the real field • factorised to n linear factors over the complex field
- 5. Factorising Complex Expressions If a polynomial’s coefficients are all real then the roots will appear in complex conjugate pairs. Every polynomial of degree n can be; • factorised as a mixture of quadratic and linear factors over the real field • factorised to n linear factors over the complex field NOTE: odd ordered polynomials must have a real root
- 6. Factorising Complex Expressions If a polynomial’s coefficients are all real then the roots will appear in complex conjugate pairs. Every polynomial of degree n can be; • factorised as a mixture of quadratic and linear factors over the real field • factorised to n linear factors over the complex field NOTE: odd ordered polynomials must have a real root e.g . i x 2 2 x 2
- 7. Factorising Complex Expressions If a polynomial’s coefficients are all real then the roots will appear in complex conjugate pairs. Every polynomial of degree n can be; • factorised as a mixture of quadratic and linear factors over the real field • factorised to n linear factors over the complex field NOTE: odd ordered polynomials must have a real root e.g . i x 2 2 x 2 x 12 1
- 8. Factorising Complex Expressions If a polynomial’s coefficients are all real then the roots will appear in complex conjugate pairs. Every polynomial of degree n can be; • factorised as a mixture of quadratic and linear factors over the real field • factorised to n linear factors over the complex field NOTE: odd ordered polynomials must have a real root e.g . i x 2 2 x 2 x 12 1 x 1 i x 1 i
- 9. ii z 4 z 2 12 0
- 10. ii z 4 z 2 12 0 z 2 3z 2 4 0
- 11. ii z 4 z 2 12 0 z 3z 4 0 z 3 z 3z 4 0 2 2 2 factorised over Real numbers
- 12. ii z 4 z 2 12 0 z 3z 4 0 factorised over Real numbers z 3 z 3z 4 0 z 3 z 3 z 2i z 2i 0 factorised over Complex numbers 2 2 2
- 13. ii z 4 z 2 12 0 z 3z 4 0 factorised over Real numbers z 3 z 3z 4 0 z 3 z 3 z 2i z 2i 0 factorised over Complex numbers 2 2 2 z 3 or z 2i
- 14. ii z 4 z 2 12 0 z 3z 4 0 factorised over Real numbers z 3 z 3z 4 0 z 3 z 3 z 2i z 2i 0 factorised over Complex numbers 2 2 2 z 3 or z 2i If (x – a) is a factor of P(x), then P(a) = 0 b If (ax – b) is a factor of P(x), then P = 0 a
- 15. ii z 4 z 2 12 0 z 3z 4 0 factorised over Real numbers z 3 z 3z 4 0 z 3 z 3 z 2i z 2i 0 factorised over Complex numbers 2 2 2 z 3 or z 2i If (x – a) is a factor of P(x), then P(a) = 0 b If (ax – b) is a factor of P(x), then P = 0 a iii Factorise 2 x 3 3x 2 8 x 5
- 16. ii z 4 z 2 12 0 z 3z 4 0 factorised over Real numbers z 3 z 3z 4 0 z 3 z 3 z 2i z 2i 0 factorised over Complex numbers 2 2 2 z 3 or z 2i If (x – a) is a factor of P(x), then P(a) = 0 b If (ax – b) is a factor of P(x), then P = 0 a iii Factorise 2 x 3 3x 2 8 x 5 as it is a cubic it must have a real factor
- 17. ii z 4 z 2 12 0 z 3z 4 0 factorised over Real numbers z 3 z 3z 4 0 z 3 z 3 z 2i z 2i 0 factorised over Complex numbers 2 2 2 z 3 or z 2i If (x – a) is a factor of P(x), then P(a) = 0 b If (ax – b) is a factor of P(x), then P = 0 a iii Factorise 2 x 3 3x 2 8 x 5 as it is a cubic it must have a real factor 3 2 1 1 1 1 5 P 2 3 8 2 2 2 2 1 3 45 4 4 0
- 18. ii z 4 z 2 12 0 z 3z 4 0 factorised over Real numbers z 3 z 3z 4 0 z 3 z 3 z 2i z 2i 0 factorised over Complex numbers 2 2 2 z 3 or z 2i If (x – a) is a factor of P(x), then P(a) = 0 b If (ax – b) is a factor of P(x), then P = 0 a iii Factorise 2 x 3 3x 2 8 x 5 as it is a cubic it must have a real factor 3 2 1 1 1 1 5 2 x3 3x 2 8 x 5 P 2 3 8 2 2 2 2 2 x 1 x 2 2 x 5 1 3 45 4 4 0
- 19. ii z 4 z 2 12 0 z 3z 4 0 factorised over Real numbers z 3 z 3z 4 0 z 3 z 3 z 2i z 2i 0 factorised over Complex numbers 2 2 2 z 3 or z 2i If (x – a) is a factor of P(x), then P(a) = 0 b If (ax – b) is a factor of P(x), then P = 0 a iii Factorise 2 x 3 3x 2 8 x 5 as it is a cubic it must have a real factor 3 2 1 1 1 1 5 2 x3 3x 2 8 x 5 P 2 3 8 2 2 2 2 2 x 1 x 2 2 x 5 1 3 45 2 2 x 1 x 1 4 4 4 0
- 20. ii z 4 z 2 12 0 z 3z 4 0 factorised over Real numbers z 3 z 3z 4 0 z 3 z 3 z 2i z 2i 0 factorised over Complex numbers 2 2 2 z 3 or z 2i If (x – a) is a factor of P(x), then P(a) = 0 b If (ax – b) is a factor of P(x), then P = 0 a iii Factorise 2 x 3 3x 2 8 x 5 as it is a cubic it must have a real factor 3 2 1 1 1 1 5 2 x3 3x 2 8 x 5 P 2 3 8 2 2 2 2 2 x 1 x 2 2 x 5 1 3 45 2 2 x 1 x 1 4 4 4 2 x 1 x 1 2i x 1 2i 0
- 21. (iv) Given that P x 4 x 4 8 x 3 5 x 2 x 3 has two rational zeros, find these zeros and factorise P(x) over the complex field.
- 22. (iv) Given that P x 4 x 4 8 x 3 5 x 2 x 3 has two rational zeros, find these zeros and factorise P(x) over the complex field. 1 4 1 8 1 5 1 1 3 P 2 16 8 4 2 0 2 x 1 is a factor
- 23. (iv) Given that P x 4 x 4 8 x 3 5 x 2 x 3 has two rational zeros, find these zeros and factorise P(x) over the complex field. 1 4 1 8 1 5 1 1 3 P 2 16 8 4 2 0 2 x 1 is a factor P x 2 x 12 x 3 3
- 24. (iv) Given that P x 4 x 4 8 x 3 5 x 2 x 3 has two rational zeros, find these zeros and factorise P(x) over the complex field. 1 4 1 8 1 5 1 1 3 P 2 16 8 4 2 0 2 x 1 is a factor P x 2 x 12 x 3 5 x 3
- 25. (iv) Given that P x 4 x 4 8 x 3 5 x 2 x 3 has two rational zeros, find these zeros and factorise P(x) over the complex field. 1 4 1 8 1 5 1 1 3 P 2 16 8 4 2 0 2 x 1 is a factor P x 2 x 12 x 3 5x 2 5 x 3
- 26. (iv) Given that P x 4 x 4 8 x 3 5 x 2 x 3 has two rational zeros, find these zeros and factorise P(x) over the complex field. 1 4 1 8 1 5 1 1 3 P 2 16 8 4 2 0 2 x 1 is a factor P x 2 x 12 x 3 5x 2 5 x 3 3 27 9 3 P 2 5 5 3 2 8 4 2 0
- 27. (iv) Given that P x 4 x 4 8 x 3 5 x 2 x 3 has two rational zeros, find these zeros and factorise P(x) over the complex field. 1 4 1 8 1 5 1 1 3 P 2 16 8 4 2 0 2 x 1 is a factor P x 2 x 12 x 3 5x 2 5 x 3 3 27 9 3 P 2 5 5 3 2 8 4 2 0 2 x 3 is a factor 3 1 rational zeros are and 2 2
- 28. P x 4 x 4 8 x 3 5 x 2 x 3
- 29. P x 4 x 4 8 x 3 5 x 2 x 3 2 x 1 2 x 3 x 2 1
- 30. P x 4 x 4 8 x 3 5 x 2 x 3 2 x 1 2 x 3 x 2 1 1 3 2 x 6 x 1 2 x 1 2 x
- 31. P x 4 x 4 8 x 3 5 x 2 x 3 2 x 1 2 x 3 x 2 1 1 3 2 x 6 x 1 2 x 1 2 x 4x 1 3 ? x 3 x
- 32. P x 4 x 4 8 x 3 5 x 2 x 3 2 x 1 2 x 3 x 2 x 1 1 3 2 x 6 x 1 2 x 1 2 x 4x 1 3 ? x 3 x
- 33. P x 4 x 4 8 x 3 5 x 2 x 3 2 x 1 2 x 3 x 2 x 1 2 1 3 2 x 12 x 3 x 2 4 1 3 2 x 6 x 1 2 x 1 2 x 4x 1 3 ? x 3 x
- 34. P x 4 x 4 8 x 3 5 x 2 x 3 1 3 2 x 6 x 2 x 1 2 x 3 x 2 x 1 1 2 x 1 2 x 2 1 3 4x 2 x 12 x 3 x 2 4 1 3 ? x 3 x 1 3 1 3 2 x 12 x 3 x i x i 2 2 2 2
- 35. P x 4 x 4 8 x 3 5 x 2 x 3 1 3 2 x 6 x 2 x 1 2 x 3 x 2 x 1 1 2 x 1 2 x 2 1 3 4x 2 x 12 x 3 x 2 4 1 3 ? x 3 x 1 3 1 3 2 x 12 x 3 x i x i 2 2 2 2 Cambridge: Exercise 5A; 1b, 2, 3, 5, 6, 7b, 8, 9, 10, 12 to 15