How can you improve the reliability of a Level 2 deployment?

• A. By using tested deployment delays, verify wiring, perform ground tests, and use quality connectors.
• B. By replacing all electronics with cheaper components.
• C. By increasing the weight of the rocket.
• D. By relying on memory rather than logs.

Answer: (A)

Reliability comes from using proven, repeatable deployment techniques and solid hardware. When you use tested deployment delays, you ensure the parachute opens at the right moment every flight, despite small variations in temperature or voltage. Verifying wiring eliminates loose connections or miswiring that can cause a misfire or partial deployment. Ground tests let you watch the sequence and catch issues before an actual flight, often revealing wiring, timing, or component problems that only show up under load. Quality connectors resist vibration and corrosion, keeping electrical paths solid through the high-G environment and in rugged field conditions. Put together, these practices tackle the main ways a Level 2 deployment can fail.

Choosing cheaper electronics increases risk because tolerances, reliability, and performance can vary more and degrade the deployment sequence. Increasing the rocket’s weight can affect stability and the dynamics of the deployment event, potentially changing when or how the parachute should deploy. Relying on memory instead of logs prevents learning from past flights and makes it hard to identify repeating issues or track what actually happened during a deployment.