Lift off! Photos of the launch of the SpaceX Crew Dragon capsule

SpaceX Crew Dragon Demo-2 Launch
Nikon D5, 150mm, 1/4000 sec, f/9, ISO 100 – 1300 ft (395 m) from the launch pad.

KENNEDY SPACE CENTER, Fla. — Since the final flight of the Space Shuttle in 2011, astronauts had not been launched into space from US soil for nine years. On May 30, 2020, SpaceX changed that by sending NASA astronauts Bob Behnken and Doug Hurley to the International Space Station aboard their Crew Dragon capsule. It also marked the first time a commercial company sent astronauts into space aboard one of their rockets.

I had the unique opportunity to witness the historic launch at Kennedy Space Center and place remote cameras around the launch pad to capture close-up views of the rocket.

Astronaut Doug Hurley waves to onlookers
NASA astronaut Doug Hurley travels to Launch Complex 39A aboard a Tesla.
SpaceX Falcon 9 rocket in prone position prior to launch
SpaceX Crew Dragon capsule at the tip of a Falcon 9 rocket as it prepares to be hoisted into vertical position

Photographing rockets with remote cameras is a unique and risky sort of photography. For this launch, I placed five cameras around the launch pad at distances of 1300 ft (395 m) to 2400 ft (730 m). At those distances, it is not safe for humans. There is an explosion risk, and the sound of the rocket at that distance is loud enough to injure or even kill.

Launch Pad Close-Ups

SpaceX Crew Dragon Demo-2 Launch
Nikon D810, 70mm, 1/1250 sec, f/9, ISO 64 – 2400 ft (730 m) from the launch pad.
SpaceX Crew Dragon Demo-2 Launch
Nikon D850, 50mm, 1/1250 sec, f/9, ISO 64 – 1300 ft (395 m) from launch pad.
SpaceX Crew Dragon Demo-2 Launch
Nikon Z7, 35mm, 1/1600 sec, f/9, ISO 62 – 2100 ft (650 m) from the launch pad on the Saturn V crawler way.
SpaceX Crew Dragon Demo-2 Launch
Nikon D500, 55mm, 1/1250 sec, f/9, ISO 100 – 2000 ft (610 m) from the launch pad.
SpaceX Crew Dragon Demo-2 Launch
Nikon D5, 150mm, 1/4000 sec, f/9, ISO 100 – 1300 ft (395 m) from the launch pad.
SpaceX Crew Dragon Demo-2 Launch
Nikon Z7, 35mm, 1/1600 sec, f/9, ISO 62 – 2100 ft (650 m) from the launch pad on the Saturn V crawler way.
SpaceX Crew Dragon Demo-2 Launch
Nikon D850, 500mm, 1/1000 sec, f/9, ISO 100 – 3 miles (5 km) away from the launch pad
SpaceX Crew Dragon Demo-2 Launch
Falcon 9 rocket ascends towards the International Space Station – Nikon D850, 500mm, 1/1000 sec, f/9, ISO 100
SpaceX CEO Elon Musk celebrates the successful launch of SpaceX Crew Dragon Demo-2 mission

Remote Camera Retrieval

Viewing a launch in person is thrilling. The anticipation for a successful launch and the sheer power and sound is unlike anything else I have experienced.

However, the excitement of launch is doubled when you have remote cameras. Did my cameras survive? Were my settings correct? For this launch, I had four days to worry and second-guess my setup before seeing the results.

Success!

We couldn’t pick up our first set of remote cameras until about four hours after launch. The two closest cameras had to wait until the following day for pickup for safety reasons. This meant another night of Florida rainstorms for my gear.

Remote Camera Setup

With no wireless access at the launch pad and the potential for changes in launch time, the only effective way to trigger the cameras is to use a sound trigger. A sound trigger fires the shutter in continuous mode based on the loud sound of the rocket engines. Like many other launch photographers, I use the MIOPS Smart+ trigger.

Camera protection with a low center of gravity and wrapped for the wet Florida weather.

Remote cameras are set up the day before launch. Florida weather means you will face dew, condensation, or rain, so protecting the cameras from the elements is essential. I wrapped my cameras in plastic bags, except for the front lens element. More sophisticated setups use plastic or wood enclosures.

Camtraptions weather-sealed camera housing.
Wood enclosure to protect launch cameras.

If a launch gets scrubbed, as this one did, your cameras remain out at the launchpad for several days. The Wednesday launch of the SpaceX Crew Dragon was scrubbed and moved to Saturday. During the four nights, our cameras were subjected to punishing thunderstorms. Luckily we got to revisit the cameras on Friday before launch, and I had a couple of lenses that I swapped that had condensation inside of the front element after all of that rain.

Repeated heavy rains and high humidity left significant condensation inside some lenses.

It is also essential to protect the cameras from the rocket itself. A launchpad explosion, brush fires, or rocket thrust can occasionally throw or melt cameras. But that is the inherent risk of rocket photography. You must risk damage to your equipment to get the shot.

Rocket Photography Camera Settings

One question that photographers always ask is how to expose a rocket launch properly. The nice thing about exposure settings for rockets is that you expose for the extremely bright exhaust of the rocket, which is consistent between daytime and nighttime launches.

I usually underexpose my rocket shots by 1-2 stops to avoid blowing out highlights in the rocket exhaust. This requires boosting the exposure in the sky and surroundings in post-processing.

To capture even more incredible details of the flames coming from the rocket engines, I will set some cameras to severely underexpose by 3-4 stops.

SpaceX Crew Dragon Demo-2 Launch
Flame details from the Falcon 9 Merlin engines – Nikon D5, 150mm, 1/4000 sec, f/9, ISO 100 – 1300 ft (395 m) from the launch pad.

Composition can be challenging. You have to visualize the rocket’s path and the size and direction of the exhaust cloud coming out of the flame trench. I have shot at this launchpad before, so I could better pre-visualize the results I would get. When encountering new rockets or launch pads, I research previous photos taken by other photographers.

I focus the cameras on the rocket, change to manual focus, and apply gaffer tape to the lens focus rings to ensure that focus isn’t missed or changed.

The cameras must also be in continuous release mode, and the sound triggers must be activated and tested by clapping your hands or pounding on them to ensure they are on.

Why I love launch photography

The combination of technical settings, lots of gear, high risk, and the thrill of the launch makes rocket photography unlike any other sort of photography that I do.

It was amazing to witness this launch in person. It was a significant milestone for manned space flight and a bright spot in an otherwise challenging time for our country and the world.