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ajgartland22

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Posts posted by ajgartland22

  1. Kerbal Flight #4 Pre- Flight Briefing

    Team Name: Jamison Industries LLP

    Available Funds: $167,464

    Vehicle Name: Bird Food

    Vehicle Parts List and Cost: 

    BACC Solid Booster $3,400

    Rockomax Jumbo-64 Fuel Tank $5,750

    RE-15 Liquid Fuel Engine $5,300

    AE-FF2 Airstream Protective Shell $2,500

    FL-T800 Fuel Tank $800

    Probodobodyne OKTO $450

    Clampotron Docking Port Jr. $800

    TR-18A Stack Decoupler x2 $800

    Total Cost: $18,000

    Design Goals: Our vehicle is designed to achieve stable orbit around Kerbin and serve as a refueling station for vehicles heading to Mun and other parts of space.

    Launch Goal: We are hoping to achieve the milestone of unmanned satellite in orbit and demonstrate our ability to dock ships to refuel.

    Pilot Plan: 

    1. Launch
    2. Tilt 10 degrees east
    3. Enter orbit and stay with prograde marker.
    4. Separate tank from rocket when it is in orbit.

    Illustrations: 

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  2. Launch #3 Post Flight Report

    Launch Time: 10:35

    Team Members Present: AJ and Jake

    Play-by-Play: The launch procedure was followed with complete accuracy.  No surprises :)

    Photographs: See Attatched (coming soon)

    Summary: Stable orbit was achieved, and enough fuel was conserved to safely re-enter the atmosphere and make a safe return back to earth.

    Opportunities / Learnings: We found a good routine and set of maneuvers that we can use to enter orbit.  Also with our rocket design, we can add other components to help complete other milestones.

    Strategies / Project Timeline: Next we want to conduct a Kerbal EVA and start exploring the possibilities of a Munar Landing.

    Milestone Awards Presented: Stable Manned Orbit: $50,000

    Available Funds: $122,376 - $4,912 = $117,464

  3. Kerbal Flight #3 Pre-Flight Breifing

    Team Name: Jamison Industries LLP

    Available Funds: $92,376

    Vehicle Name: Dodo III

    Vehicle Parts List and Cost: 

    MK1 Command Pod $600

    MK16 Parachute $422

    Heat Shield (1.25m) $300

    TR-18A Stack Decoupler x2 $800

    FL-T400 Fuel Tank $500

    LV-909 Terrier Liquid Fuel Engine $390

    FL-T800 Fuel Tank $800

    LV-T30 Liquid Fuel Engine $1100

    Total Cost: $4,912

    Design Goals: We used multiple stages to make the most efficient rocket possible to achieve stable orbit.

    Launch Goal: We are hoping to demonstrate our ability to launch a manned rocket into orbit and safely return it.

    Pilot Plan: 

    1. Ignite engines at max thrust
    2. Tilt 10 degress
    3. Keep speed constant at 300 m/s until 10 km in altitude
    4. Cut engine at 70 km and cost to apoapsis
    5. At 30 seconds before apoapsis, reignite engine and climb into orbit.
    6. Flip rocket "backwards" to direction of orbit
    7. Burn engine to slow velocity and direct path of orbit into earth.
    8. Enter atmosphere leading with capsule heat shield.
    9. Deploy parachute when capsule speed is under 200 m/s

    Illustrations: 

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  4. Kerbal Flight #2 Jamison Industries LLP 

    Team Name: Jamison Industries LLP

    Available Funds: $64,198

    Vehicle Name: Dodo II

    Vehicle Parts List and Cost: 

    MK1 Command Pod - $ 600

    TR- 18A Stack Decoupler - $400

    RT- 10 "Hammer" Solid Fuel Booster - $400

    MK16 Parachute - $422

    Total Cost: $1822

    Design Goals: We made a cheap rocket to reach 50km of manned flight.  We used a very simple design that will end with the cockpit and parachute splashing down as the only remaining body of the rocket.

    Launch Goal: We are hoping to maintain stable flight and a safe ride for our crew and to achieve manned flight at over 50 km.

    Pilot Plan: Eject engine from fuselage when it is out of fuel, and pilot the craft back down to earth after 50km has been reached. 

    Illustrations: 

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    Kerbal Flight #2 Post Flight Report

    Launch Time: 10:55

    Team Members Present: Jake and AJ (Good luck on your surgery Sky)

    Play-by-Play: 

    1. Lift off
    2. Straight path with speeds over 900m/s
    3. Booster ran out of fuel, detatched from pod.
    4. Pod traveled up to a max height of approx. 67,000 m
    5. After reaching max altitude, the pod started descending with parachute pointing down.
    6. In order to deploy parachute, the pod was turned 180 degrees, so the parachute was at the top of the vessel and able to deploy.
    7. Parachute was deployed
    8. Successful and safe touchdown on land

    Photographs: See attatched

    Time-of-Flight: 7 mins 20 sec

    Summary: Although the rocket was very simple, we met many public and personal milestones during this mission.  Along with the 50 km milestone, this was the first successful mission in which we used a decoupler to detach the spent rocket to allow for a more efficient flight and safer landing.  Also, this flight was a lot smoother control- wise, as there was a little tumbling on the way back down but it was at a slow rate and for a very short period of time.  Other than that, it was a very smooth flight and all goals were met/ exceeded.

    Opportunities / Learnings: We gained a lot of confidence at the controls of the craft and built up some more basic skills with staging design and the use of larger rockets. 

    Strategies / Project Timeline: For the next milestone, we will need more research as we have yet to reach orbit in a previous mission.  we need to find what kind of power we need to get up there and also the resources required to get us out of orbit.  Also, we could branch our strategy away from manned missions and work to place a satellite in orbit while we are still working on the "getting out" part of orbit.

    Milestone Awards Presented: Manned Launch to 50 km - $30,000

    Available Funds: $64,198 - $1,822 + $30,00 (prize $ from previous mission) = $92,376

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  5. Launch Time: 10:50

    Team Members Present: Skylor, Jake, AJ

    Play-by-Play: 

    1. Rocket lifted off from pad
    2. Left straight vertical path earlier than expected and started to level off at a low altitude
    3. Utilized manual controls to correct curved flight and cause rocket to become unstable
    4. Fuel ran out 
    5. Rocket entered tumbling upward flight, peaked and started back down to earth
    6. Hard splash down, but all crew members were unharmed

    Photographs: See attatched photographs

    Time-of-Flight: 7 min 46 sec

    Summary: Our main goal was to achieve manned flight at an altitude above 10 km.  Although it was not pretty, we got there and got our Kerbal home safe.  Our flight path was not ideal and a big safety concern moving forward will be the stability of our craft and the experience needed by our team members to correctly respond to similar situations.

    Opportunities / Learnings: Stability is key, and manual controls are not reliable.  You need to know what the rocket is going to do before it launches and how you should react to every possible situation.

    Strategies / Project Timeline: We definitely need to redesign our rocket to achieve the next milestone.  In the near future, we will be conducting many test missions to try out new designs and staging in order to find a sound rocket that can take us to the next milestone.

    Milestone Awards Presented: 

    Launch to 10 km - $10,000

    Manned Launch to 10 km - $ 20,000

    Available Funds: $70,000 - $5,802 = $64,198 availible

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  6. Team Name: Jamison Industries LLP

    Available Funds: $70,000

    Vehicle Name: The Dodo I

    Vehicle Parts List and Cost:

    ·         4x Standard Canard Wing $700

    ·         FL-T800 Fuel Tank $800

    ·         MK1 Command Pod $600

    ·         MK16 Parachute $422

    ·         LV- 909 “Reliant” Liquid Fuel Engine $1100

    Total: $5802

    Design Goals: Create a small, easily controllable rocket that will safely transport a Kerbal 10km in altitude and then return to earth.

    Launch Goal: Manned flight at over 10 km

    Pilot Plan:

    1)      Launch

    2)      Direct increase in altitude until 10 km

    3)      Level off flight path to stay in atmosphere

    4)      Deploy Parachute over safe landing area

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