Hello loyal readers of the rocketry blog! We will begin biweekly posts detailing our progress, outreach, and launches. These biweekly posts will be tagged with "updates." They will be accompanied by special posts about launches, outreach events, and particularly important moments. Additionally, the blog will begin including TARC information as well. Look out for our posts over the coming months.
October 1st Update
This is now my fourth year on the team, and I'm hoping it'll be the best. I'll start with some history that is missing. Two years ago, we entered into Battle of the Rockets Planetary Lander division. After some serious work and great flights, we won first place in that competition. Inspired by this, we entered the Mars Rover and Sounding Rocket competitions last year, winning first in Sounding Rocket but failing to complete the Mars Rover in time. This year, we are attempting the two competitions again with a renewed focus on completion.
These posts will all have the same format: general updates, the biweekly updates, and sub-updates about Mars Rover, Sounding Rocket, TARC stuff, and launches. We haven't made much progress with the Mars Rover. Everyone knows the rules, but we are still brainstorming how to move the rover without wheels or treads and how to collect dirt autonomously. Most of the next few weeks will be spent finalizing these designs.
While we racked our brains on the Mars Rover, the sounding rocket has sat untouched. We've come up with a fin design, but not much else is ready. This will be a major focus in the coming weeks. Expect more information.
To celebrate the 50th anniversary of the moon landing, we have expanded our TARC program to three teams. One, led by myself, includes two students from NCSSM and another Jordan student. Amy's team is all-girls, set to take finals by storm. The last team is still working out their membership.
In other news, we're working hard on the sounding rocket from last year, getting ready for the launch on October 13. Hopefully, we can take some of the new people out to that launch and show them what a rocketry launch is like!
Anyway, this post has been shorter than I wanted it to be. Future posts will be longer, and written by others. Thanks for reading!
Good news, we've finshed up the PDR! It can be viewed using the link below!
My name is Mason, and this is my first post on this blog. I am a freshman at JHS, and I am proud to be a part of the Jordan rocketry team.
In the last few weeks, we have been making progress with our new rocket. For a while, we've been working on payload design. But at the moment, we're working on getting parts, and finishing up our designs, in preparation for the 2017 Battle of the rockets competition. This competition is the same one that DART attended in Huntsville last year, so it's the same three events that our rocket will partake in. Except for we don't yet know if the events are still going to be in Huntsville. The three events are:
- Target altitude event
- Planetary lander kit
- Advanced planetary lander kit
In a nutshell, the point of the events is to see if the rocket can reach a certain altitude, and then see how well it performs a landing. Let's just hope that the competition isn't a repeat of our recent test flight of last year's rocket, where it got stuck in a tree and took an hour to find! Anyways, the competition itself is only open to high school and college teams, though there is always a large number of competitors there. The competition is in March, which seems like a lot of time, given that we meet twice a week, but we still have a lot to do, including the designs that I was talking about earlier, registering for the competition, and constructing our physical rocket. Good thing that most of our members have experience with rockets!
Fifth Fullscale Flight
For our fifth fullscale flight, we launched the fullscale rocket to about 4,800 feet. Our goal was to accomplish the 2017 NASA SL challenge, even though we cannot compete in it. The 2017 challenge is to create a device that controls the roll of the rocket to make it spin 720 degrees. Our roll alignment device was perfectly suited for this, with just some small changes to the programming.
On Saturday, September 24th, three of us drove down to the Bayboro Launch Field. After a day of preparation, we launched it on an slightly unstable pad. This caused it to launch at a higher angle than anticipated, and go towards the woods. While the roll control worked (until we ran out of rotation power), it was only able to rotate 520 degrees. The rocket then landed in a mosquito-infested forest, and we had to trek through it to find the rocket. In the end, it was undamaged, and the flight was successful. See below for some videos of the flight:
After a few weeks of hard work repairing and refining the rocket, we were ready to fly again, this time in Camden, SC. The field was smaller than what we were used to with our NC site, so we chose to fly on a slightly less powerful motor: the K805G. This propelled us to an altitude of 3373 feet. Both payloads worked, although the ILD was not completely successful. Videos of the launch and more payload information is below.
Launch Readiness Review and Rocket Fair
We finally made it to Huntsville. After a day full of tours and lectures, we went to the conference room of the hotel and completed our Launch Readiness Review (LRR). The LRR is a form of last-minute check, where experts from the National Association of Rocketry (NAR) come in and check our rocket for any errors or things that pose a safety hazard. Their word is final, or you do not fly. After a comprehensive check, we received one suggestion but nothing we were required to do before we launched our rocket.
The next day, we set up a booth with the other teams in the SLI Rocket Fair. Staff from the Marshal Space Flight Center (MSFC) and members of all teams walked around to learn about other projects and view other rockets.
After many months of hard work since the beginning of the year, we have made it to Huntsville with a successful launch. The rocket hit apogee at 4940 feet; below our target, but considering the wind, pretty good. The wind came back to bite us, however, when our rocket was dragged by the main parachute's catching of the wind for just under a mile across three properties. Below are the camera videos, gps data, and further payload information.
We were also interviewed on NASA TV. They recorded this interview and our launch.
As you can see, the flight successful although the payloads didn't work perfectly. Below is a video of the full flight, including a long drag of the rocket until the camera ran out of battery at the end. Strangely, camera one began shaking when the payload started up.
Please click "read more" for a continued description of the flights and our time at Huntsville.
White House Science Fair
In other news, four team members have been accepted into the White House Science Fair. This is a great opportunity for publicity for our program.
Yesterday, we flew our fullscale rocket in Bayboro, NC for the second time, this time with a running roll control device and balloon payload. The rocket, now painted completely black, went up around 4793 feet, under our target of 5280, but it was a windy day and the roll control flywheel was not working perfectly. This time, both cameras worked and the altimeters reported similar figures for apogee. While the balloon payload's connection to the nose cone broke, and the roll control flywheel needs some touch-ups, the flight was successful in that everything essential to a safe flight worked correctly. Below are images and pictures from the launch.
Because our first flight was too high (5498 ft), had a smaller mass, and no ballast or paint, we chose to fly our rocket again with a K1000T motor. This flight was with 12 oz ballast and paint. The mass of the rocket increased to 23.8 lbs. While our simulations predicted 5283 ft for vertical launch with no wind, the actual launch was about 10 mph wind angled a few degrees into the wind, away from the crowd. Apogee was at least 1500 ft into the wind according to our GPS data. The most precise reading for apogee was 4793 ft (due to the significant arc into the wind). In conclusion, the rocket is stable ballasted from 22.6 lb to 23.8 lb. The location of ballast (forward of CG) improves the CG-CP stability margin. Unless there are objections, we intend to fly at Huntsville ballasted to about 23.8 lb.
In addition, the RAD (roll control device) was operational. Communication with the new VESC motor controller was implemented two days before the flight, so we did not have the PID algorithm optimized. We experienced significant oscillation in the roll position. We are working to improve this for the next flight. The roll oscillation is clearly seen in the videos. GPS downlink was working. See flight path below. The balloons disconnected from the nose cone. Possibly a poor knot was used. We are updating their knot tying skills. Lastly, dual deploy recovery worked fine.
More pictures and videos after you click "read more"
We have finally completed and launched the full scale rocket. We did not use our ballon payload or roll control device, but put in weight to figure out the height. The rocket went about 5,498 feet into the air. Only one of our two cameras on the side of the rocket worked. In addition, we tested black powder on our fullscale. Videos and pictures are below:
Hello, it's been a while, but there have finally been more launches. A week ago, our subscale was launched twice. We had experienced problems with coning which have been fixed, proof of which is in our two launches. The video is below.
This blog will be updated once a week over the course of the 2018-2019 school year, detailing our progress. It will be signed at the end by a member of the team.