Simplify. 1. 4(x − 1) + 6(x + 6) (y + 8) + (2 + 3y)

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Presentation transcript:

Simplify. 1. 4(x − 1) + 6(x + 6) 2. 7(y + 8) + (2 + 3y) 3. 3[x + 3(x + 2)] 4. −4[x − 4(4 + x)] 5. 3x + 2[x + (5 + x)] 6. −6x + 3[x + 5(x − 6)] + 8

What are the subsets of the set of complex numbers?

Find the values of x and y that satisfy the equation 2x − 7i = 10 + yi.

Find the values of x and y that satisfy the equation. 5. x + 3i = 9 − yi 6. 9 + 4yi = −2x + 3i

Add or subtract. Write the answer in standard form. a. (8 − i ) + (5 + 4i ) b. (7 − 6i) − (3 − 6i) c. 13 − (2 + 7i) + 5i

Electrical circuit components, such as resistors, inductors, and capacitors, all oppose the flow of current. This opposition is called resistance for resistors and reactance for inductors and capacitors. Each of these quantities is measured in ohms. The symbol used for ohms is Ω, the uppercase Greek letter omega. The table shows the relationship between a component’s resistance or reactance and its contribution to impedance. A series circuit is also shown with the resistance or reactance of each component labeled. The impedance for a series circuit is the sum of the impedances for the individual components. Find the impedance of the circuit.

Multiply. Write the answer in standard form. a. 4i(−6 + i ) b. (9 − 2i )(−4 + 7i )

7. WHAT IF? In Example 4, what is the impedance of the circuit when the capacitor is replaced with one having a reactance of 7 ohms? Perform the operation. Write the answer in standard form. 8. (9 − i ) + (−6 + 7i ) 9. (3 + 7i ) − (8 − 2i) 10. −4 − (1 + i ) − (5 + 9i ) 11. (−3i )(10i ) 12. i(8 − i ) 13. (3 + i )(5 − i )

Solve (a) x2 + 4 = 0 and (b) 2x2 − 11 = −47.

Find the zeros of f (x) = 4x2 + 20.

Solve the equation. 14. x2 = −13 15. x2 = −38 16. x2 + 11 = 3 17. x2 − 8 = −36 18. 3x2 − 7 = −31 19. 5x2 + 33 = 3 Find the zeros of the function. 20. f (x) = x2 + 7 21. f (x) = −x2 − 4 22. f (x) = 9x2 + 1

I Used to Think … But Now I Know: Take time for students to reflect on their current understanding of complex numbers.