a^2 + b^2 = (12 + 16i) - (10 + 6i) = 2 + 10i - go-checkin.com

Understanding the Context

What Does a² + b² Mean in Complex Numbers?

The expression a² + b² involves complex numbers—numbers expressed in the form x + yi, where x and y are real numbers and i is the imaginary unit with the property that i² = −1. When calculating a² + b², especially when a and b are complex, we perform the arithmetic using standard rules, combining real and imaginary parts accordingly.

Step-by-Step Calculation

Key Insights

We start with the right-hand side of the equation:

(12 + 16i) − (10 + 6i)
This simplifies by subtracting the real and imaginary components separately:

• Real part: 12 − 10 = 2
  
• Imaginary part: 16i − 6i = 10i

Thus:
(12 + 16i) − (10 + 6i) = 2 + 10i

Now, the equation becomes:
a² + b² = 2 + 10i

Final Thoughts

This confirms that finding a² + b² equals the complex number 2 + 10i, which lies in the complex plane with a real part of 2 and an imaginary part of 10.

Why Solving Equations Like This Matters

Understanding how to work with such expressions is valuable in many fields:

• Engineering: Simulating systems involving oscillatory or wave-like behavior often uses complex numbers.
  
• Physics: Quantum mechanics and electromagnetism rely on complex math for wave functions and field calculations.
  
• Computer Graphics: Transformations with complex numbers help create rotations and scaling.

The equation a² + b² in complex numbers illustrates the principle of preserving the magnitude and phase during algebraic manipulations—a fundamental skill in advanced math and its applications.