Simplifying Powers of the Imaginary Unit

As an apprentice in a technical training program, you are writing a computer script to model alternating current (AC) phase shifts. Your mentor advises you to use the cyclic powers of the imaginary unit, $i$, to represent the repeating phases. To set up the array in your script correctly, you need to input the exact 4-step sequence of these powers. Which of the following correctly identifies the repeating pattern from $i^1$ through $i^4$?

As an apprentice technician in a signal processing unit, you are calibrating an oscillator that uses complex number phase shifts. To ensure the software logic is correct, you must verify the cyclic sequence of the imaginary unit $i$. Arrange the simplified results of the first four positive integer powers of $i$ (starting from $i^1$ and ending with $i^4$) in their correct repeating order.

As an entry-level technician in an electronics firm, you are reviewing a troubleshooting guide for wave oscillations. The guide uses powers of the imaginary unit $i$ to denote different signal phases. To ensure you can interpret the guide correctly, match each power of $i$ on the left with its equivalent simplified value on the right.

As an apprentice technician at an electronics lab, you are reviewing a technical manual that uses powers of the imaginary unit $i$ to represent signal phases. The manual states that these powers follow a repeating four-step cycle: $i, -1, -i, 1$. True or False: Based on this cycle, the simplified value of $i^3$ is equal to ${}-1$.

Telecommunications Lab: Signal Phase Reference