SpaceX Successfully Launches, Recovers Falcon 9 For CRS-12

Another SpaceX rocket has been successfully launched from NASA's Kennedy Space Center today, carrying a Dragon capsule loaded with over 6,400 pounds of cargo destined for the International Space Station. This marks an even dozen for ISS resupply missions launched by SpaceX under contract to NASA. TechCrunch reports: The rocket successfully launched from NASA's Kennedy Space Center at 12:31 PM EDT, and Dragon deployed from the second stage as planned. Dragon will rendezvous with the ISS on August 16 for capture by the station's Canadarm 2 robotic appendage, after which it'll be attached to the rocket. After roughly a month, it'll return to Earth after leaving the ISS with around 3,000 pounds of returned cargo on board, and splash down in the Pacific Ocean for recovery. There's another reason this launch was significant, aside from its experimental payload (which included a supercomputer designed to help humans travel to Mars): SpaceX will only use re-used Dragon capsules for all future CRS missions, the company has announced, meaning this is the last time a brand new Dragon will be used to resupply the ISS, if all goes to plan. Today's launch also included an attempt to recover the Falcon 9 first stage for re-use at SpaceX's land-based LZ-1 landing pad. The Falcon 9 first stage returned to Earth as planned, and touched down at Cape Canaveral roughly 9 minutes after launch.

Re:Pounds? Don't you mean kilograms?

[Strider-]

IIRC (it has been a long time since I studied physics), mass was measured in Newton's. The definition of weight as distinct from mass is that all matter has mass all the time, but it only has weight when that mass is experiencing the force of gravity within a gravitational field.

the Kilogram is a measure of mass. However, due to the way that scales and the like are calibrated here on earth, it corresponds to the weight as well. Force is measured in Newtons (F=ma), so if you hold a 1kg object suspended in the air, you need to apply 9.8 newtons of force to prevent it from moving.