I imagine the launch was timed so that this video could be taken. I doubt it’s just coincidence.
Or perhaps they’re launching so the vehicle will end up in orbit close to the ISS and not have to take so long, I believe they’re doing with this with manned launches so they can dock quite quickly.
> NASA confirmed on June 28 that if Progress MS-09 launches on July 9, it will attempt a super fast-tracked rendezvous with the Station, docking to the ISS just 3 hours (2 orbits) after launch - making it the fastest orbital rendezvous ever-attempted with the Station.
If I remember correctly, ISS makes a full circle of Earth every 90 minutes. Having planned the lift of with 45mins lag/difference would make it "so much" more difficult/challenging/risky to connect. And I guess every second counts when you're up there.
I've seen many videos of lift-offs etc (plus I'm huge Star Trek fan), but this one, made me hold my breath for a good 45 seconds (thank you yoga!)
The topic here is phasing. The two orbit approach requires exact alignment of orbital path and correct phasing, which both translate to an exact point in time when you need to launch the rocket (instantaneous launch window, i.e. when you delay by a second you need to scrub the launch). That window does not repeat every ~90 minutes (i.e. orbital period), since the ground track of the ISS moves West (relative to Earth‘s surface). It does repeat roughly every ~24hrs (not quite true and hence you cannot launch every day of the year), so you can re-attempt the next day only.
For the longer approaches, the rocket launches with an offset of several (tens of) minutes of that instantaneous launch window (that mostly means you have a launch window of several minutes, i.e. short delays do not abort your launch), so the spacecraft comes up significantly „in front of“ or „behind“ the ISS. As with the fast approach, the spacecraft will still not launch into the same orbit (i.e. mostly lower and more elliptical than the ISS orbit). But this is more important for the slow approach: Due to orbit dynamics, the difference in orbit will make you „catch“ up with the other space vehicle over time – this is what is called „phasing“. When you’ve aligned the phases, you raise/align the spacecraft’s orbit to the ISS and are thus very close and in final approach.
If your phase is not well aligned at orbit insertion (i.e. just after the launch), you need to do more and thus longer phasing. I.e. the bottom line is that you need a high precision launch, precise navigation sensors & enough computational power on the rocket and spacecraft to be able to do a fast approach in 2-3 orbits, plus the ISS orbit must align very well with your launch site at launch time. It is simply more complex and thus more risky as the slow approach, but then again you are faster if everything works out perfectly. The safer bet is the slow approach, though, as it gives you more margin and more time to fix any issues that arise.
Or perhaps they’re launching so the vehicle will end up in orbit close to the ISS and not have to take so long, I believe they’re doing with this with manned launches so they can dock quite quickly.