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Solving the Complex Equation: (2-3i)(z-1)+2i=5-8i
This article will guide you through the process of solving the complex equation (2-3i)(z-1)+2i=5-8i, step by step. We'll break down each stage and explain the concepts involved.
1. Expanding the Equation
Firstly, we need to expand the equation by distributing the complex number (2-3i) to the term (z-1):
(2-3i)(z-1)+2i = 5-8i
2z - 2 - 3iz + 3i + 2i = 5 - 8i
2. Rearranging and Combining Terms
Now, let's rearrange the equation to group the real and imaginary terms:
2z - 3iz + 5i = 5 + 2
2z - 3iz = 7 - 5i
3. Expressing z in Standard Form
To solve for z, we need to express it in the standard form of a complex number, which is z = a + bi, where a and b are real numbers.
To do this, we can factor out z from the left-hand side of the equation:
z(2 - 3i) = 7 - 5i
4. Isolating z
Finally, to isolate z, we divide both sides of the equation by (2 - 3i):
z = (7 - 5i) / (2 - 3i)
5. Rationalizing the Denominator
To get z in the standard form, we need to rationalize the denominator. We can do this by multiplying both the numerator and denominator by the conjugate of the denominator, which is (2 + 3i):
z = (7 - 5i)(2 + 3i) / (2 - 3i)(2 + 3i)
6. Simplifying the Expression
Now, we can expand and simplify the expression:
z = (14 + 21i - 10i + 15) / (4 + 9)
z = (29 + 11i) / 13
7. Final Solution
Therefore, the solution to the equation (2-3i)(z-1)+2i=5-8i is:
z = 29/13 + 11i/13