Investigators said on Tuesday (January 28) that the helicopter carrying Kobe Bryant was involved in a “high energy impact crash” when it slammed into a hillside in foggy weather on Sunday, killing the basketball star and eight others, including his 13-year-old daughter.
“We know that the helicopter was at 2300 ft (700 meters) when it lost communication with air traffic control. The descent rate for the helicopter was over 2,000 ft (600 meters) a minute, so, we know that this was a high energy impact crash,” Jennifer Homendy, of the National Transportation Safety Board (NTSB).
As the helicopter crash probe entered its second full day in the foothills just outside Calabasas, about 40 miles (64 km) northwest of downtown Los Angeles, the NTSB investigators combed through the wreckage and used drones as they sought uncover the cause of the accident.
“We were able to recover an iPad and a cell phone. We do not know if that’s the pilot’s iPad so we are going to take those personal electronic devices, we are going to send them back to our lab at headquarters for further analysis,” said Homendy.
“We also worked with drones today, to document the scene and then we duplicated part of the flight path. So, we flew part of the end part of the flight path with our drones using ADSB data,” she added.
Low clouds, fog and limited visibility over the region at the time of the crash have emerged as a prominent focus of the investigation.
(Production: Omar Younis)