(1+i)/(1-i) ^m=1

3 min read Jun 16, 2024
(1+i)/(1-i) ^m=1

Solving the Equation: (1+i)/(1-i)^m = 1

This article explores the equation (1+i)/(1-i)^m = 1, where i is the imaginary unit (√-1) and m is an integer. We will analyze the equation, find solutions for m, and delve into the underlying concepts.

Understanding Complex Numbers and Exponents

Before tackling the equation, let's review some essential concepts:

  • Complex Numbers: Complex numbers are expressed as a + bi, where a and b are real numbers, and i is the imaginary unit. The number a is called the real part, and b is called the imaginary part.
  • Exponents: When raising a complex number to a power, we multiply the number by itself the specified number of times. For example, (1 + i)² = (1 + i)(1 + i) = 1 + 2i + i² = 2i.

Simplifying the Equation

  1. Simplify (1+i)/(1-i): We can simplify this fraction by multiplying both the numerator and denominator by the conjugate of the denominator (1+i): (1+i)/(1-i) * (1+i)/(1+i) = (1 + 2i + i²)/(1 - i²) = (2i)/(2) = i

  2. Substitute the simplified expression: Our equation now becomes: i^m = 1.

Solving for m

The imaginary unit i has the following cyclical powers:

  • i¹ = i
  • i² = -1
  • i³ = -i
  • i⁴ = 1

Notice that i⁴ = 1, and the powers of i repeat in a cycle of 4.

To solve i^m = 1, we need to find the values of m that result in a power of i equal to 1.

Therefore, the solutions for m are all multiples of 4: m = 4k, where k is any integer.

Conclusion

The equation (1+i)/(1-i)^m = 1 has infinitely many solutions for m, which are all multiples of 4. This solution arises from understanding the cyclic nature of powers of the imaginary unit i.

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