Deep Impact Guide

It wasn’t enough to prevent a future impact, but it proved the principle: kinetic impactors work. That principle became the foundation for NASA’s (2022), which successfully slammed into the asteroid Dimorphos and shortened its orbit by 33 minutes. DART was Deep Impact’s spiritual sequel—and it worked perfectly. The Lost Probe and the Second Act Deep Impact’s flyby spacecraft continued observing Tempel 1 after the impact, then went into hibernation. NASA later woke it up for a bonus mission to comet Hartley 2 (2010), which turned out to be a “hyperactive” comet spewing cyanide gas and golf-ball-sized chunks of ice.

Why copper? Because copper doesn’t interfere with spectral analysis of the debris. They didn’t want to confuse comet material with spacecraft material. Elegant. Deep Impact

Sadly, in 2013, NASA lost contact with Deep Impact. The cause: a software glitch that left the spacecraft’s antennas misaligned. After months of silence, they gave up. Deep Impact is now a silent relic drifting through the inner solar system, its last command unfulfilled. It wasn’t enough to prevent a future impact,

But it wasn’t a failure. The data from Deep Impact changed our understanding of comets. Before the mission, we thought comets were primordial ice balls unchanged since the birth of the solar system. After? We learned they’re dynamic, fragile, and surprisingly complex—geologically alive in their own slow way. Here’s the eerie part. In 2005, no one was worried about Tempel 1. It wasn’t a threat. But the techniques tested on Tempel 1—targeting a small, fast-moving object with a kinetic impactor—are exactly what we’d use if a real threat appeared. The Lost Probe and the Second Act Deep