Event Tips Pages (draft)


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A Streamer Dur.
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Research & Development
Peanut Sport Scale
SFF Sport Scale

 Sport Scale Events

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Since nearly all of the tips for both Peanut and SF/F Scale events are the same, this page is being used for both.

Peanut Sport Scale

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Peanut Scale has a Maximum Size Limit of EITHER 20mm Diameter, OR 30 CM tall. Be careful not to make your model too close to 20mm diameter (after paint!), unless it is under 30 CM tall.
       For length measurement, FINS do count, but only for REAL fins that the real vehicle had. Models that have extra non-scale fins, or clear fins that sweep back, those do not count against the 30 CM Max length, only the scale parts of the model count.

Science Fiction / Future Sport Scale

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For either Science Fiction, or seriously proposed rockets that were never built and flown.

Please read the SF/F rules at the NAR website.

Pay special attention to rules 56.1 thru 56.4 which define what vehicles are eligible for this event, and the DATA requirements.

Sport Scale provides the challenge of using one's craftsmanship to construct a nice looking scale model. The competition goes beyond looks, as entries are also judged on their flight characteristics and lack of post-flight damage.

For PEANUT Sport Scale, the model must be based on an existing or historical guided missile, rocket vehicle, or space vehicle.

For Science Fiction / Future Scale, the model must be based on a vehicle from Science Fiction, or else a seriously proposed vehicle that did not end up being built and flown. You can NOT create your own vehicle for this event. Please read the SF/F rules at the NAR website for specifics.

It is recommended you read the full rules for Sport Scale, especially regarding the differences (and requirements) of the Peanut and SF/F scale events.

Use this link for Sport Scale which includes rule 53.2.3 which defines Peanut Sport scale.

Use this link for the Science Fiction / Future Sport Scale rules.

General Rules and Tips: If the real rocket was staged, the model has to have all the stages. For example, the WAC Corporal was 2-staged, so an entry that models just the upper stage by itself is not legal for the event. Same goes for the Navy's sea-launched versions of the "Tomahawk" cruise missile. Models of those need to include the rocket boosters that got them airborne. A model of a multi-stage rocket does not need to actually stage. For instance, a WAC Corporal with a single engine in the (first stage) booster is fine.

Sport Scale entries cannot exceed 1500 grams (approximately 3.3 pounds) mass at liftoff.

Each entry must make at least one safe and stable flight (two flights are allowed), otherwise the model is disqualified and the static score is useless. The model can be clustered or staged (stages need to recover in a safe manner: a Saturn-V first stage tumbling to the ground "like the real thing" would be disqualified). Clustering or staging is not recommended for inexperienced fliers.

Entering for judging: Turn-in for static judging will be Sunday night. The model needs to be entered in the same condition it will be for flight. No parts may be added or removed between judging and flying, other than internal parts such as the recovery system. Your NAR number should be on the model. Many contestants use decals or dry transfer numbers for this. A display stand of some type is useful, but not required. The stand is not judged but is nice to keep the model from falling over , and it helps present the model at a desired viewing angle.

Scoring - For Sport Scale events, the model is judged in advance to arrive at a static score. The static score is based on Craftsmanship and Difficulty. When flown, it is also judged for General flight points (including lack of flight damage), and "Mission" points. The model is allowed to make two flights, the best single qualified flight score is used. The final score is a total of the static score and the best flight score.

Engines - You can use any NAR Contest Certified engine that is suitable, considering the weight and drag of your model and the time delay to ejection. However, the maximum engine total impulse allowed is 160 Newton-Seconds (Full G power). The sum of the total impulses of the engines in clusters and multiple stages cannot exceed 160 N-sec.

Model choice is important. - What makes a good choice for you to build for Scale is just that, what will be good for YOU.

If you are not good at masking off corrugations to create black and white roll patterns, then a Saturn is probably not a good choice for you to make.

It is nice to choose a model that inspires you to learn new skills. But not if it is going to involve learning a number of different skills that you won't have time to master well enough to complete a good model. Should you choose a model that will involve new skills and techniques, it is best if you learn those skills early. Allow extra time to learn and test them out before building the real model.

Choose something that you feel you can do a good job on. Also, it tends to help if you actually like the vehicle you are building a scale model of.

Try to plan out the time the model will take to complete. Usually, one can come up with a time estimate and then multiply it by 1.5 or 2 times, as things inevitably take longer to complete. This can be especially true when you're learning new methods or trying new things for the first time. It is not good to have a nice model that is a couple of nights shy of being completed in time, or a model rushed to completion so that it suffers in appearance. Order any special parts or supplies EARLY.

A list of kits, and list of data sources is included further down on this page.

For Peanut Sport Scale: Note that some manufacturers make some kit models that look scale-like but are not based on a real rocket. If you are looking for a kit, make sure it is of a real rocket, missile, or launch vehicle. Some manufacturers have made kits of "bombs", but those are not rockets or missiles, and are not be legal for Peanut Sport Scale. Neither is an SR-71 (it's a jet), while an X-1 or X-15 would be OK as those were rocket powered.

Peanut Scale kits



1/282 scale Saturn-IB kit suitable for Peanut Scale.

Dr. Zooch Rockets

Space Shuttle (at 10" it is legal, the fins extending out the back are non-scale).


Some OOP kits that may be found in old stock: 1/100 Little Joe-II

Peter Alway's kits by BMS

"Zenit" kit.

SF/F Scale kits

Notes: ILLEGAL types: kits like the Interceptor, Orbital Transport, and other "futuristic" or "fantasy" models designed as model rocket kits, are NOT legal for SF/F scale. Those are not based on any legitimate Sci-Fi stories, shows, or movies. Or were not based on any "seriously proposed" vehicles that might have actually been built in the past or future.


Rubicon (An X-Prize contender that did not fly in the version Estes kitted). Cosmos Mariner rocket plane.

Some OOP kits that may be found in old stock: Various "X-Prize" kits EXCEPT for Space Ship One which did fly (no longer eligible for SF/F), as well as Star Wars kits, Star Trek kits, etc.

Dr. Zooch Rockets

Ares-1. Also, Ares-1X. The Ares-1X is NOT due to fly until after NARAM, so a SF/F model would would be OK for NARAM.

Scale Data - Something to also consider is whether you can collect enough data to document your model. Sport Scale is a fairly easy event to obtain data for, though. The minimum data needed is:

You might wish to read the Sport Scale rules for the fully detailed description of the data.

If you are building a kit, make sure that you find the right data to go with it. If the kit does not look similar to the drawings or photos you wil luse for your data pack, then warning bells should go off. It may be the kit is wrong, or that the kit is OK but is of a mission or version that is different from what the data represents. Or, the kit may be "semi-scale", not as accurate as one might desire.

Rockets on static display (such as at museums) are too often poor sources of documentation. Many are not painted correctly, and some were not even assembled right. It's best to go with data and photos based on the real thing that flew, if at all possible.

Don't get too hung up on the data part, though. If you are building from a scale (and not semi-scale) kit, almost surely there are plenty of drawings and usually photos that you can obtain if you look hard enough. A list scale data sources is included further down on this page.

Building from scratch

If you do not build a kit, here are some tips to keep in mind.

What size? - First, determine what scale to build the model. You may have in mind what general size you want to build, regarding length or diameter, so choose a ballpark size and then see what scale ratio would give you a model of that size. Also consider the weight and engine power (more later).

There is a very handy Body Tube diameter & ratio chart on the WOOSH section's website (PDF version, Excel version). It lists a lot of tube diameters which are available from many different vendors.

Looking at the scale data, divide the real rocket's diameter by the diameter of the body tube you have in mind. For example, a 16.5" diameter for the real rocket, and 1.637" for a BT-60. The resulting scale would be 1 to 10.079 (or 1/10.079). Well, after primer and paint, that BT-60 will be larger than 1.637", and this is Scale, so the scale for such a model might as well be rounded to 1/10. Some more experienced scale builders will prime a tube and even paint a scrap piece to find out almost exactly what the final diameter would be, and only then select a scale factor. There is no penalty for not rounding and choosing say 1/10.13 scale or 1/9.98 scale.

If the rocket has more than one body tube diameter, you may have to reconsider the scale until you find two (or more) tube diameters that match up closely enough to look right. You could also consider making a custom tube, or to resize an existing tube to a smaller diameter. See the tip from John Pursley on reducing a tube's diameter.

So, having determined what scale the model will be, divide all of the dimensions of the real thing by the scale factor (in this case 10). It helps to use a photocopy of the original data so you can write in the model dimensions for workshop use. Now, some data sources do not list dimensions directly, but as "Station Numbers" (often with a "STA" prefix). So you have to work out the particular dimensions between any two given station numbers. It's not hard, just different. Here is a drawing for a Saturn-IB, at 1/70scale, which is a good example of station numbers and the dimensions that were derived from those numbers. This particular drawing shows both the original full size dimensions, as well as the 1/70 scale dimensions (Full size dimensions were derived first, from the STA numbers. Then the 1/70 dimensions were derived from the full size dimensions).

Since this is Sport Scale, the model will NOT be measured. So, you do not need to obsess over getting the model dimensions to work out exactly, but to look right by eye. Still, you need to work out the dimensions, and keep track of them for your workshop references, so you can build it properly. Go over the numbers again, as a "sanity check", to make sure you didn't make some calculation error that may not be obvious until it is too late.

Nose cones & adapters - Are there any commercial nose cones that will work for the model you are planning? Some companies might offer the right shape, but only for certain diameters of tubes. So if you want to use those noses, you'll have to base the scale of the model on the tube diameter that fits that nose. Same thing for adapters/reducers.

For totally custom parts, you can turn your own nose cones or adapters using a simple lathe or even an electric drill. But that is not as necessary to do these days, thanks to the emergence of Balsa Machining Service (BMS). They make custom nose cones, adapters, and nose blocks to order. Check out the order form on their site as to the different shapes they make. They also do custom laser-cutting work.

If you would like to have lightweight hollow plastic parts , you could consider vacuum-forming. Here is an article on how to make your own simple vac-former.

Here are tips from Peter Alway, on how to calculate an adapter shroud (for thin cardboard or thin plastic), and for cutting body tubes (A fresh single sided razor blade is preferred by some, instead of a model knife).

There is also Robert Blaske's online Shroud Calculator on EMRR (uses Javascript).

Steve Humphrey created a PowerPoint-based shroud/transition maker. It will calculate and generate patterns, including for offset and complex shapes such as the Nike-Hercules and X-17.

Mass and thrust: The model won't go very high if it's too heavy for the engine it's flying on. Some scale models can be heavy for their relative size, and some require additional noseweight. Estimate the weight of the completed model, ready to fly, and determine what kind of engine necessary for the job based on other models of similar weight and drag.

The thrustline should be through the center of gravity of the model, or very close to it. If not, the model will pitch over under thrust. Fortunately for "normal" rockets this is simple, the cylindrical body of a Saturn-V-type model means the center of gravity will be in the center of the body. But something like a space shuttle, with the orbiter offset on one side, calls for a very special thrustline layout.

Clustered models have a bigger problem. All the engines must ignite at the same time or the model may pitch badly at liftoff, which may cause it to crash.

The same can be said for the risks of staging scale models. So, clustering or staging is not recommended, unless you have lots of good experience, ideally including boilerplate testing.

Stability: Some scale models need help to be stable. The easy way is to add noseweight (such as clay, or small lead fishing weights embedded in clay), which is fine for some models. For other models, the engine may not be able to lift any additional weight, or there may not be room to add noseweight. The fins may be too small, or non-existent, so the fin area must be increased. However, noticeably increasing the size of the scale fins will give the judges reason to take off points from the outline score.

So, if a model really needs to have more fin area, clear plastic fins may be the way to go. Some kits like the old Estes Space Shuttle stack, and Titan-IV, used plug-in opaque fins painted black (plugging into the bottom of the SRB's). Judges almost always take off significant points for models whose fins are done that way.

Clear fins are notoriously difficult to glue on neatly and mask off for painting, so this is not a good route for the less experienced. If you choose to use clear fins, you can get the 0.04" clear plastic made by Plastruct. That clear plastic is a bit flexible, this is not a problem for small fins but can be for large fins. If flexing is a problem, try to find cheap clear plastic boxes to cannibalize for stiff clear fin material. However, one of the most ideal clear fin materials is Lexan (aka Polycarbonate). You can find 1/32" and 1/16" thicknesses of it sold by Micro-Mark. Do not use Cyanoacrylate to attach clear fins. It does not work well, and it often frosts up the plastic. It is not easy to glue clear fins to rocket body tubes. Even epoxy does not really bond well to plastic.

If you have the skill to do it neatly, and if the model is suitable, you can use the slot and tab method with the clear fins. Perform the following steps before you glue in the engine mount. You may need to plan a careful assembly sequence in order to do this.

Cut the fins with a tab in the root meant to fit into a slot in scale model's body tube. Use great care in cutting out slots that are exactly the width of the fin thickness, or perhaps a hair undersize, then file slightly wider as needed. Drill a few holes into the tab portion of the clear fin, so you can epoxy the fin into the tube, with the epoxy on the inside of the tube. The holes in the tabs will allow the epoxy to grab into the holes like rivets (this is a method best tested out first with scrap plastic and tubing). Mask off the fins very carefully so that paint won't creep onto the clear fin.

Boilerplate testing - If you are going to make your own scale model from scratch, not a kit, this can be very important. The more difficult or complicated the model will be, the more you ought to consider testing a boilerplate model. Given the above considerations, you've chosen a model and are ready to put your ideas and plans into action by building. But will the model really work? Would you like to know for sure your scale model will work before building a detailed pretty model? It's highly recommended to build a "boilerplate" model first and find out. This means you make a simple model that is basically like your final scale model, but it can be built more simply and quickly. Don't paint it or worry about details, or any time-consuming things that are not relevant to testing out the flying qualities. Then fly it, and see if it works. If it crashes, you saved a lot of time and effort, and might be able to determine how to solve the problem if you want to try again. If it works, great, you now have the confidence to invest that time and effort. Here's an example of a boilerplate test flight for a large clustered Little Joe-II.

More general tips for all models, kit or scratch built

Time management and planning - This was mentioned before, but bears repeating. However long you think it will take to make a scale model, it will take longer. So try to allow for more time to build it, if at all possible. Anything new....test out the techniques in advance if you can, so you can avoid messing up the real model. If some method just won't work at all you can plan for an alternative without being stuck in the middle of building the model.

Kit upgrades: A half measure between building from scratch, and doing a kit, is to get a kit that may not have much detailing to it or parts that are not quite accurate, and add your own extra detailing or improved parts. Same for upgrading the markings, including replacing stick-on decals with water-slide type decals.

As well, a kit based on one round or mission might serve as the foundation for significant modification to a different one. Such as a Bumper-Wac (V-2 with Wac-Corporal upper stage) or a Skylab Saturn-V.

Custom Decals - Tango Papa Decals offers a variety of decals for certain scale models, at almost any desired scale. They can also do custom decal work, and sell blank decal paper. Highly recommended.

Some people make custom decals, printing them on inkjet printers or color copiers. Micro Mark sells blank decal paper meant for inkjet printers, and another type of blank paper meant for color copiers or laser printers (they have both clear sheets, and white sheets). Be sure to buy a can of clear "fixative" to overcoat the decals, especially the inkjet type since without the clear coat, water will make the inkjet ink run. See Micro Mark's instructions for decal paper.

Finishing: Craftsmanship counts for 300 out of 800 total points in static scoring. That's a lot. There's an all too true story about spending weeks (or longer) building a great model, and messing it up in ten seconds during painting.

Try to fill the body tube spiral seams, as visible spiral seams will cost points. One way to do this is to use masking tape to mask off the whole tube EXCEPT for the seam (if the seam has a 1/16" gap, then there should be a 1/16" gap between the making tape on each side of the seam). Then use a good primer to spray a coat that will go only into that seam. Some builders like Plasti-Kote Sandable Primer--available at auto stores--as it is easy to sand. Others have success using Krylon's white sandable primer, which is more easily obtained but can have problems with clogging up the sandpaper too quickly.

After letting the primer dry fully, apply more coats (letting dry fully between coats) until the buildup of the primer will be taller than the seam recess depth was. Then remove the masking tape and apply a couple of coats of white primer to the whole tube. The primer paint filling the seam should be visible as standing above the rest of the white primer on the tube. Use sandpaper to knock down the primer covering the seam and make it flush with the primer on the rest of the tube. Don't overdo it. When the seam is pretty much flush, give the whole tube another coat or two of white primer and sand the whole tube until it's uniform, no hint of the seam left.

If the fins, nose, or other parts are wood, try your best to fill all of the wood grain. Try to make you model's fin shapes like the real rocket's fins. Make sure that sharp leading edges are sharp, blunt edges are blunt, straight edges are straight, and so forth. Some people do not use even wood fins, they build them up out of thin plastic or other suitable materials that will give the best end result.

Always test out any new paints, and new methods you plan to do, first. So if some paints do not react well, you can learn that without messing up the model. This is also true for decals, especially decals and clear coats. Some clear coats can actually attack decals, others do not hurt the decals, but make the clear film very visible rather than disappearing.

Paints for plastic models are usually good for scale rocket models. Spray cans are typically used. An airbrush is nice but overkill for many basic model's needs. If you want a flat finish but will be using decals, use gloss paint(s) first, apply the decals, then apply a flat clear coat. Otherwise, decals applied over flat paint look "silvery" in the clear areas of the decal. Anytime different paint types are used, do a test first on some scrap plastic or other material. Some paints are not compatible with other paints. Carefully applied scotch "magic" tape can work well for some simple masking jobs. After applying the second color, remove the tape mask about 30 minutes later, before the new paint gets "hard", so the tape will come off without bringing chipped flakes of the dried second coat of paint.

Decal application - Setting solutions make application and final positioning of the decals easier. Tango Papa decals are easier to apply when using a setting solution. Use a setting solution to help you slide the decals into place. Setting solutions provide a "wet" film surface on the model that the decal can slide on, so you can manipulate the decal into the right spot using a small clean model brush. Do not confuse setting solution with decal softening solutions. Softening solutions make the decal film pliable so it can go over complicated surfaces (like recessed panel lines or even corrugations), but for most model work the accidental use of a softening solution can risk damaging the decals (unless you know what you are doing). Test out the use of a setting solution with scrap decals to get the hang of doing it. Acetic acid--white vinegar--is a good (and cheap) setting solution.

Recovery system:

It is important to have a good strong reliable shock cord and parachute system for the model. Some scale models are heavy and tend to stress the recovery system a lot at deployment.

Not surprisingly, the shock cord should be able to absorb shock. Elastic is good for this. For models of 4-6 ounces, 1/8" elastic is adequate, for heavier models 3/16-1/4" elastic is better. The more length, the better the elastic can absorb the shock when the chute deploys, but do not use so much that the recovery compartment tube is crammed.

For larger scale models, some use light-weight 1/4" tubular nylon, or the smaller tubular Kevlar. These absorb the shock (by heating) with essentially no snap-back. Do not use cord-type Kevlar, as it does not absorb shock significantly. Z-folding the shock cord, taping each fold to the bundle with one wrap of masking tape, can add to shock absorption if done the right way (and is a clean way to pack the cord).

Parachutes need to be able to be stored small, deploy well, and hold up without ripping or losing shroud lines. Cloth chutes are great for strength, but depending on the size of the model such chutes can take up too much space in the body tube. Mylar chutes can be packed very small and tight. However, they can rip easily and sometimes do not deploy reliably. Therefore mylar chutes really should be avoided for scale models.

Commercial plastic chutes are suitable for many small and mid-sized models, but need to be reinforced. For a 6-line chute, replace the 6 lines with 3 very long lines, and run them across the top of the chute as shown at right. Use extra tabs to secure the lines across the top near the center. This ensures that no lines will pull out.

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Chute size is a judgment call. The larger the chute (or chutes), the softer the landing...unless it's so big that it gets jammed inside and the model crashes! Smaller chutes cause harder landings, but are more reliable. Experiment with packing chutes in the tube you're using. If you are not able to blow the chute out using lung power, go to a smaller chute or try a different way to pack the chute. And when it comes time to fly, remember to pack the chute the same way!

Consider using more than one chute, it may be easier to fit in two smaller chutes than one larger one, and if only one of those two opens the model won't crash.

At right is a photo of a Little Joe II model using several parachutes and a very long shock cord. Two main chutes, plus a third smaller one for the nose section. They are all linked together. The model had limited chute srorage space. So the main chutes were packed inside first, and the nose chute packed in last, so it would be the first to some out at ejection. So, if the mains were not ejected out of the main body, the nose cone's chute would act like a drogue chute to yank out the mains. This "semi-drogue" parachute arrangement (everything linked, nose section chute packed to easily come out first at ejection) is very reliable. The method was inspired by some scale models that come down in separate pieces, only to sometimes have the main body's chute jam in the tube and plummet to the ground - with the nose section gently descending by itself, almost mocking the fate of the crashed main body.



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Entering & Flying

Entering for judging: Turn-in at NARAMs is usually Sunday night. If you can not make it in time, someone else can turn it in for you. Contestants have sometimes even shipped models by UPS or FedEx, carefully packed.

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Flight Points - When the model is flown, it will be judged in two ways. To quote from the rules:

General Flight - 100 points max. "General Flight points are awarded for proper operation of the model during flight, including launch, lack of misfires, stability, recovery, and lack of damage on landing. No consideration should be given to staging or scale-like flight characteristics, as these are covered under Mission points; however, if the general flight performance of the model is adversely affected by the failure of one or more of these aspects, points may be deducted from General Flight."

Mission Points - 200 points max. "Mission points are awarded for appropriate and scale-like operation of the model during flight. Examples of such operations are staging, simulated cloud seeding, operation of electronic payload, and smoke ejection. Any such operation must comply fully with the safety standards set forth in this NAR Sporting Code. If it does not, the entry shall be disqualified. The RSO is the only official who may judge the safety qualities of the operation."

The General Flight points are pretty basic. You want the model to fly well, hopefully straight up without spinning or wobbling, with good deployment of the recovery system and a soft landing. Pretty much like you want with any model rocket you fly, just this time it's actually judged for how it's flying.

Mission points are where people get inventive. Some do clusters, some do stages. Of course, clustering or staging can be quite risky things to do. Altimeters and other devices have been flown to simulate a payload like the real thing flew. But it has to be based on things the real rocket did. If the real thing did not use a cluster of engines, then you won't get any mission points if you cluster your model.

If your model flies well, and you do not think it would get a better score if it flew again, then you do not need to fly again. If it didn't fly well, or got disqualified, but was in the running for a top score, try again. If it crashed and was in the running for a top score, try a "Humpty Dumpty" repair (rebuild?) session to see if you can make it flyable again.

Good luck!

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More Information:

John Pursley's Rocketry & Spacemodel site has a number of good tips. Unfortunately, a few were removed, so the following links are from the Internet Archive:

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Data sources - Vendors

  • Saturn Press - By Peter Alway (Note, this is an ARCHIVED copy of an old AOL site) - By far, the BEST place to look for scale data! Peter's "Rockets of the World" book is in its 3rd edition, with 384 pages covering 200 versions of 139 rockets. All suitable for Sport Scale data, indeed used by a lot of competitors for their scale data packs. Most of the data also qualifies for SCALE as well. There are also supplements covering other rockets, other publications, posters, and two scale kits - the Arcas and Astrobee 1500. Here is a listing of all the rocket data that Peter Alway has created which is in his Saturn Press publications, or is online.
  • Peter Alway's Rockets of the World - Reprinted by NARTS
  • NARTS - NAR Technical Services has scale data for the Aerobee 350, IQSY Tomahawk, Super Loki Dart, and Sandhawk. The data is in more detail than usually found elsewhere.
  • NAR magazine Back-issues - The NAR's magazine (Sport Rocketry now, previously named American Spacemodeling and the Model Rocketeer) has had scale data published in it many times. NARTS sells back-issues, and in cases of originals being out of stock, photocopies. Check out this magazine index, compiled by Lila Schmaker, to see what scale data has been published in the magazine through 1999.
  • RealSpace Models - High-Quality Drawings by David Weeks, of Mercury (Little Joe-I, Mercury Redstone, Merc. Atlas), Gemini, Apollo, and Saturn-IB, Saturn-V, and Saturn-V/Skylab. 24 x 36" sheets. Also check out the samples of each page as listed on the's "Spacemodeling" page, scroll down to the reviews of David Weeks' drawings to see just how much detail is included. If you're doing any NASA rocket that flew a Mercury, Gemini, or Apollo spacecraft, you may well want to get these drawings.
  • Accur8 Spacemodels - By John Pursley. 1/12 scale Mercury Capsule kit (capsule only), Photo sets of JSC's Saturn-V, and Navajo Cruise missile. Saturn-V drawing in 1/40 scale. Custom decal services, and decal paper.
  • Advanced Rocketry Group (ARG/Sigma) - Russian Scale Drawings, at 1/50 scale: Intercosmos, Proton KA Phobos-2, & Soyuz KK TM-12. Russian Photograph sets: Intercosmos, Proton-Phobos, Soyuz Joint British Vehicle, Buran-Energia, Soyuz Lift-off.

Data sources - Personal & Public sites

  • NARscale site - An NAR recognized special interest group. Site contains scale data, photos, tips, and many useful links.
  • NARscale's "ScaleRoc" Yahoogroup - Photos and data in the photo and files sections, as well as e-mail communication. Files include American Spacemodeling Little Joe-II data. You have to join the group to access the files & photos.      
  • James' Duffy's Little Joe-I scale model assembly page - Photos and info on Jame's 1/17.44 scale S7 FAI model. Also info on his Bumper-WAC V-2 FAI Scale Alttude (S5) model which James won the silver medal with at the 2004 WSMC (And Tony Reynolds took gold with using a similar model).
  • James Duffy's 2006 Little Joe-I model (2006 WSMC in Baikonur)
  • Jim Ball's Scale Library of Missile Data - Drawings and photos of various missiles.
  • Peter Alway's pages on Jim Ball's site via Rocketry Online: Sounding Rockets page, Space Rockets page, and Missiles page - A number of color GIF versions of some of the drawings made by Peter Alway for his books and other published works.
  • Peter Alway's Rocket Photos page - many excellent photographs of various rockets. Hosted on Jim Ball's site via Rocketry Online.
  • Meatball Rocketry - Josh Tschirhart 's site with data on some vehicles such as Saturn I Block 2, D-4 Javelin, Black Brant XII, and Aerobee 350. Includes photos and information on building scale models as well. Josh's data and information on building his team's Saturn-I models are a MUST SEE.
  • National Air and Space Museum, Stine Drawings - Line drawings by G. Harry Stine of Arcas, Asp, Astrobee D, Astrobee 1500, Atlas D ICBM, Black Brant 3, Honest John, Mercury Spacecraft, MX-774, Nike-Smoke, Shotput, Hasp, Nike-Cajun, WAC Corporal, Titan III-C, Tomahawk, Vanguard I, Viking.
  • Sven Knudsen's Scale Models Page's - Mainly aimed at Plastic models, but includes some scale model rocket information. Lots of links to sites that have photos and other information on lots of different rocket vehicles. Many vendors, personal/club pages, and links to aerospace museums.
  • Missile Photo Gallery by Buzz Nau: Nike-Smoke, Nike-Tomahawk 12, Honest John, Standard Missile, Terrier, Talos, Sparrow, Bullpup, Michigan Space Center, and Point Mugu Missile Gargen.
  • Also, Missiles Articles by Buzz Nau: Project Bumblebee, General Dynanmics Standard Missile, and U.S. Navy Surface to Air Missiles guide.
  • JimZ's Rocket Plans site - This is not really a scale data site. It is a site that is mostly dedicated to instruction sheets and plans for a lot of old out of production (OOP) kits from Estes, Centuri, and others. A person might find it useful to see how some old scale kits were assembled, and might make some good use of the scanned decal files from some old scale kits. For example, the stenciled "UNITED STATES" decal used for the Centuri 1/10 Nike-Smoke kit, useful not only for Nike-Smoke models but other multistaged sounding rockets that used Nike boosters (resizing the decal as needed).
  • GRIN (Great Images in NASA) - GRIN is a collection of over a thousand images of significant historical interest scanned at high-resolution in several sizes.
  • NASA Image Exchange (NIX) - Searchable site that links many NASA sites together for its searches.
  • Mark Wade's Encyclopedia Astronautica - Site that has information on almost every space launch vehicle, and many spacecraft.
  • Apollo - Information and photos of Saturn-IB, Saturn-V, & Apollo spacecraft. Also check the "Spacemodeling" page for model related info and sites.
  • Apollo - Photo gallery with many Saturn and Apollo photos. Also some Little Joe-II photos (early Apollo) and photos from the Mercury and Gemini programs.
  • - "The A-4/V-2 Resource Site". Lots of information, links, and tons of photos.
  • Directory of U.S. Military Rockets and Missiles - Links to a very large number of military missiles, including many old obscure ones. Each linked page has some information on each missile and usually with a few photographs.
  • Nike - Nike Missile Historical Society. Check out the links page for sites with numerous photos.
  • 1000 Aircraft - Links to photos of rockets, including Mercury, Gemini, and Apollo.
  • Scale model Index - by Tony Matteliano. A site with hundreds of modeling links, mostly of the plastic model variety. Can be useful for looking for overall modeling tips and sources.
  • Gunter's Space Page - Information on Launch Vehicles.
  • White Sands' Historical Missiles & Rockets - Information & photos on many rockets that were flown at White Sands.
  • Phil Broad's "Real Hardware" site - Incredible number and quality of photos of Saturn S-IV stages, Space Shuttle Atlantis, V2/A4, Wasserfall, Rheintochter, Atlas assembly, & Nike Ajax. Also an Apollo Links Page, a V2 Links Page, and other pages of interest.

Sites featuring contest type scale rocket model projects or tips:

  • John Pursley's Rocketry & Spacemodel page - Info and photos of many of John's scale projects such as the Mercury-Redstone, Vanguard, and Saturn-V (some which have used vertical guidance systems and gimbaled engines). Great contest and techniques tips, online photos (Saturn-V, Saturn-I, Navajo, Little Joe-II), links, and Accur8 products.
  • James Duffy's 2006 Little Joe-I page - Photo page of Jame's work on his modle which flew at the 2006 WSMC in Baikonur.
  • James Duffy's Pages - Photos showing the assembly of his first 1/12 Little Joe I. Also includes other links of interest.
  • Sven Knudsen's Model Rocket Pages - LOTS of links not only relative to model rocketry, but for old scale model kits and sites which often include scale-worthy photos and other information on real rocket vehicles.
  • Model Rocketry Magazine, on Sven Knudsen's site - Scanned by Jim Hartman, these are pdf's of the October 1968 thru August 1971 issues. Some scale data printed in Model Rocketry included the Astrobee-D by G. Harry Stine. The Rocket Shoppe hosts indexes for MRM's Volume 1, Volume 2, and Volume 3.
  • George Gassaway's scale pages - Links to pages with photos and some info about projects including the Space Shuttle, X-1, Little Joe-II, Saturn-IB, and FAI scale. Also an article on how to make vac-formed parts.
  • Jeff Brundt's Rocket Pages - Aerobee 150 project, Astrobee D, Black Brant II, Nike Smoke, Sandhawk, Terrier/Sandhawk, Bomarc, Honest John, Pershing 1A, V2, Little Joe, Little Joe II, Mercury Redstone, Saturn 1B, Saturn V, Vostok, Soyuz.
  • David Miller's scale pages - Photos of various scale models being flown.
  • Russian N-1 Sport Scale model by Andy Woerner - Photos of a clustered sport scale model of the N-1 Moon Rocket, including launch photos. Note it was boilerplate tested first (brown primer photos). From the "Blast From the Past Rocketry" site.
  • Vincent Meen's Space Model Web Page - Static model oriented. Has links to a page with data and photos mostly related to U.S. and Russian Manned spacecraft & launch vehicles.
  • Steve 's Wac-HumphreyCorporal - Write-up and photos of Steve's 2-staged Sport Scale model built for NARAM-44


    Dead links:

  • Peter McQuillan's Project Mercury Little Joe page - Site with a lot of great drawings, photos, and movies related to the first Little Joe series that was used for testing Mercury spacecraft.
  • Missile.Index - The Illustrated Encyclopedia of the World's Missile Systems - Written text and some limited graphics. Useful to find a missile type to do further research on.
  • John Sarosi's Rocket Page - Scale page includes Patriot, Atlas-Centaur, Pegasus, Aerobee-Hi, V-2, Black Brant VB, and other photos.
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Scale Kit Sources

NOTE - This list is one originally compiled for Scale and Sport Scale in General.
It was not compiled for the purposes of Peanut Scale, or SF/F scale.

Note that some manufacturers make kit models that look scale-like but are not based on a real rocket (sometimes called "Pseudo-scale", or "scale-like"). So, if you are looking for a kit, make sure it is of a real rocket, missile, or launch vehicle. Some manufacturers have made kits of "bombs", but those are not missiles, so would not be legal for Scale.

Also note that kits can vary widely as to how accurate they are. If a company describes its kit as "semi-scale", then it likely is a scale model of a real rocket, but it probably compromises scale qualities and accuracy significantly.

Kit sources



Patriot Missile, Cruise Missile, Bull Pup 12B Missile, Phoenix Missile, Mercury Redstone, V-2, Saturn-V

Aerospace Specialty Products (ASP)

Various scale kits, including Corporal, D - Region Tomahawk, IQSY Tomahawk, FOTL, Kappa-7-1, Kappa-9M, RAM B, Rohini RH - 75, RP - 3, Sandia Sandhawk, Sonda II B, Super Loki Dart, and V-2. ASP also has theWac-Corporal, but only the two-staged kits with the "Tiny Tim" booster are legal for Sport Scale.

Apogee Components

Highly detailed Saturn-IB and Saturn-V kits, at 1/70 scale. If building the Saturn-V, keep in mind the 1500 gram and 160 N-sec limits.

Peter Alway's kits by BMS

Scale kits designed by Peter Alway: Arcas, Astrobee 1500, 1/195 Saturn-V, and Zenit - carried by Balsa Machining Service (BMS)


Clone of old Estes 1/70 scale Saturn-IB kit. Plus Apollo 1/70 and 1/100 capsules, and some clones of old scale balsa nose cones such as Mercury, Gemini, and so forth (search the balsa parts, not just for noses but also for adapters)

Dr. Zooch Rockets

Various scale models, including medium sizes models of various Saturns, Shuttle, Titans, Russian Sputnik and Soyux launch vehicles, Ares-1, amd more. Some of the kits, such as the Shuttle, qualify for Peanut Scale.


1/282 scale Saturn-IB kit suitable for Peanut Scale. Thunderbird SAM missile

Sigma Rockets - Black Brants - ARG

Black Brant 1/10 scale models by Taras Tataryn of ARG. BLACK BRANT series - I, IIB, III, IV, V, VA, & VC


IQSY Tomahawk and Astrobee-D kits.

Neubauer Rockets

Various scale kits including Mercury-Redstone, Mercury-Atlas, Gemini-Titan, and Juno-I

True Modeler's Rocket Kits

Scale kits of the NASA Scout, Aries "Fat Albert", Juno 1/Jupiter C, and NIKE Smoke.

Accur8 Spacemodels

By John Pursley. Incredibly detailed 1/12 scale Mercury Capsule kit (capsule only).


Nike-Smoke kit.. It is OOP, but some dealers may still have one.

The Launch Pad (TLP)
It is highly recommended to buy TLP kits from dealers, such as the partial list below:


Performance Hobbies


Commonwealth Displays




Discount Rocketry

Missile Kits:Alarm, AMRAAM AIM-120a, Anubis, ASM-1 (Type 80), ASRAAM, Bolo, Bullpup AGM-12B & 12C, Dragonfly, Exocet Am.39, Falcon AIM-4C, Flail, Folgore, Gabriel III/AS, Gecko, Grail SA-7, HARM, Harpoon AGM-84a, Hawk Mim-23a, (Improved) Hawk MIM-23B, Hellfire AGM-114a, Indigo, Kormoran AS.34, Krypton, Lance Mgm-52, Martel AS.37, Martin Pescador, Matra "Magic" R.550, Matra Super 530d, Maverick AGM-65b, Nike Ajax Mim-3A, Osiris MPM, AC-3, Perseus, Perseus II, Pershing MGM-31A, Phoenix AIM-54C, Rapier, Saab 372 (RB 72), Saab RB 05A, Scimitar, Seawolf, Sidewinder, Sparrow AIM-7F, Standard AGM-78, Tan-Sam (Type 81), Type 30 Artillery Rocket.
  Launch Pad Plan-Paks - Guideline SA-2, Nike Hercules, Scimitar, Scud-B (SS-1C), Standard RIM-67A, Warlock.

Cosmodrome Rocketry

Kits: Nike Smoke, Nike Apache, Vostok, Black Brant II, Aerobee Hi. Kys carried by dealers such as Apogee Components, and by Uncle Mike's Rocket Shack.

Dead sites:

Cosmodrome Rocketry

Site gone, but carried by some dealers, see above listing

Scale Kits

Missile Kits: Alarm, AMRAAM, Bull Pup, Guideline, Lance, Little John, Sea Sparrow, Sidewinder

Rocket R&D

Have scale & semi-scale kits. The 2.6" kits include Army Hawk, Jayhawk, Sandhawk, & Standard ARM. Some of the 3.9" kits, aimed at higher power, may be too big to make it under the 1500 gram limit.

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 Last Updated   7/3/2009