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So, you design and build a small vehicle powered by the snapping action of a mousetrap to make your car travel as far as possible. If you want to come out ahead of all the other students in your class, you'll need to make your car as efficient as possible so you can squeeze every last inch out of your "car". With the right approach, it's possible to streamline your car's design for maximum distance using mostly common home materials.

Method 1
Method 1 of 3:

Optimizing Your Wheels

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  1. Large wheels have greater rotational inertia than small wheels. In practice, this means that once they start rolling, they're harder to stop rolling. This makes large wheels perfect for distance-based contests — theoretically, they'll accelerate less quickly than smaller wheels, but they'll roll much longer and they'll travel a greater distance overall. So, for maximum distance, make the wheels on the drive axle (the one the mousetrap is tied to, which is usually the rear one) very large.
    • The front wheel is a little less important — it can be large or small. For a classic drag racer look, you'll want big wheels in the back and smaller ones in front.
  2. Thinner wheels have less friction and may go farther if the distance is what you want or need with your mousetrap racer. It's also important to take the weight of the wheels themselves into account — any unneeded weight will ultimately slow your car down or lead to added friction. In addition, it's worth noting that wide wheels can even have a small negative effect on the car's drag due to air resistance. For these reasons, you'll want to use the thinnest, lightest wheels available for your car.
    • Old CDs or DVDs work fairly well for this purpose — they're large, thin, and extremely light. In this case, a plumbing washer may be used to reduce the hole size in the middle of the CD (to fit the axle better).
    • If you have access to old vinyl, these also work extremely well, though they may be too heavy for the smallest mousetraps.
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  3. Assuming your car is a rear-wheel-drive car, each time your rear axle turns, the rear wheels turn. If your rear axle is extremely skinny, your mousetrap car will be able to turn it more times for the same length of string than it would if it were wider. This translates to turning your rear wheels more times, meaning greater distance! For this reason, it's a wise idea to make your axle out of the skinniest material available that can still support the weight of the frame and wheels.
    • Narrow wooden dowel rods are a great, easily-accessible choice here. If you have access to thin metal rods, these are even better — when lubricated, they usually have less friction.
  4. If the wheels slip against the ground when the trap is sprung, energy is wasted — the mousetrap works to make the wheels turn, but you don't get any extra distance. If this happens with your car, adding a friction-inducing material to the rear wheels may reduce their slippage. To keep your weight requirements down, use only as much as is necessary to give the tips of the wheels some grip and no extra. Some suitable materials are: [1]
    • Electrical tape
    • Rubber bands
    • Popped balloon rubber
    • Additionally, placing a piece of sandpaper under the rear wheels at the start line can reduce slippage as the car begins to move (when it is most likely).
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Method 2
Method 2 of 3:

Customizing Your Frame

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  1. Above all, your car should be light. The smaller the mass of your car, the better — every gram or milligram you can shave off of your car's frame is a little further your mousetrap will be able to push your car. Try not to have any extra frame material beyond what's necessary to keep your mousetrap and wheel axles in place. If you see wasted space on your frame, try removing it, or, if this is impossible, make holes in it with a drill to bring its weight down. You'll also want to use the lightest material possible for your frame. Here are just a few suitable ones:
    • Balsa wood
    • Hard plastic sheets
    • Thin, light metal sheets (aluminum/tin roofing material, etc.)
    • Building toys (K'NEX, Legos, etc.)
  2. Ideally, you want your car to be shaped aerodynamically — that is so that it presents the smallest possible surface area in the direction it will travel. Like an arrow, a longboat, an airplane, or a spear, a vehicle that's designed with maximum efficiency in mind will almost always have a long, skinny shape to minimize drag from air resistance. [2] For the purposes of your mousetrap car, this will mean making your frame both narrow (though it will be difficult to get your frame any narrower than the mousetrap itself) and vertically skinny.
    • Remember, to minimize drag, you're trying to give your car the narrowest, smallest profile possible. Try getting down on the ground and looking at your car from the front to spot pieces of the frame that make your car's profile unnecessarily large.
  3. Wherever you can, try to use glue in your car's design, rather than nails, pins, or other heavier solutions. For instance, you should only need to use just a few small spots of glue to fix your mousetrap to the frame. Generally, the glue will hold just as well as nails, which can add unnecessary weight. Use super glue not school glue it won't hold as good.
    • Another advantage of glue is that it shouldn't usually affect your car's air resistance. On the other hand, if either end of a nail sticks out of your frame, it can have a minor effect.
  4. The only limiting factor when it comes to how light and skinny you can make your mousetrap car's frame is its fragility — if it's too light, it may become so fragile that the action of springing the mousetrap breaks the car apart. The delicate balance between achieving the maximum distance and making your car unstable can be quite tricky to get right, but don't be afraid to experiment. The mousetrap itself is unlikely to ever break, so as long as you have extra frame material, you'll have the freedom to make mistakes.
    • If you're using an extra-fragile material like balsa wood and you're having a hard time getting your frame to hold together, consider adding a small strip of a sturdier material like metal or plastic on the underside of the frame. Doing this increases the structural strength of the car while minimizing the change to its air resistance and weight.
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Method 3
Method 3 of 3:

Maximizing Your Power

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  1. Most mousetrap cars work as follows: the mousetrap is "set", a string tied to the arm of the mousetrap is carefully wrapped around one of the wheel axles, and, when the trap is sprung, the swinging arm of the trap transfers its energy to the axle to turn the wheels. Since the arm of the trap is fairly short, if the car isn't carefully constructed, it can pull on the string too rapidly, causing the wheels to slip and energy to be lost. For a slower, steadier pull, try attaching a long pole to the arm to act as a lever, then tying the end of the string to this, better than to the arm itself
    • It's important to use the right material for your lever. The lever shouldn't bend at all under the stress of the string — this represents wasted energy. [3] Many guides recommend sturdy balsa constructions or balsa reinforced with metal to give a sturdy yet light lever.
  2. Assuming that your trap will be turning the rear wheels, you'll want your car's mousetrap to be far forward on the frame as it can be without touching the front wheels. The longer distance between the trap and the wheels, the better — more distance means you'll be able to loop more string around the axle for just a little extra slow and steady pulling power.
  3. For maximum distance, you'll want to be using as close to 100% of your mousetrap's power as possible. This means reducing the friction on surfaces of your car where points slide against each other. Use a mild lubricant, like WD-40, auto grease, or a similar product to keep the points of contact between a car's moving parts well-oiled so that the car "runs" as smoothly as possible.
    • Many mousetrap car building guides identify the axle as the primary source of friction on a mousetrap car. [4] To minimize axle friction, rub or spray a little lubricant on each axle where it meets the frame, then, if possible, work it into the contact point by sliding the wheels back and forth.
  4. Most of the time, for mousetrap car assignments, all students will be required to use the same size of mousetrap so that everyone's car designs have the same amount of power. However, if you don't have this restriction, feel free to use the most powerful mousetrap you can find! Bigger traps like rat traps provide much more power than basic mousetraps, but they also require sturdier constructions or they may break the car apart when they're sprung, so you may need to reinforce your frame and/or axles to accommodate.
    • Keep in mind that rat traps and other large rodent traps can easily break fingers, so handle armed traps with extreme caution, even when you're confident that the trap is rigged up to your axle and shouldn't be able to close freely.
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Community Q&A

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  • Question
    What sort of string should I use in a mousetrap car?
    Community Answer
    You should use something that has good grip and little friction. For example, yarn isn't a good choice because it is prone to getting caught and has lots of friction. Strong fishing line or even dental floss would be better choices. Both are smooth and thin, but also strong enough to turn the wheels without snapping.
  • Question
    If I need to make it go as far as possible shouldn't I reduce friction?
    Community Answer
    Yes, but some friction is nessecary to make the car go forward in stead of skidding in place.
  • Question
    Would a car travel further with big or little wheels?
    Community Answer
    The car would travel further with bigger wheels and faster with smaller ones.
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      Tips

      • To make your mousetrap car go further make sure to reverse the wheels and then wind it up backwards so that it gets adjusted to go straighter to. * If the string is just wrapped around the axle, the car may barely move. Adding a larger drive hub can improve pulling power. In some images there is a rubber tire on the axle, this acts as a "gear" and reduces string slippage.
      • Use the longest lever available to extend the mousetrap arm as far as possible. The tip traverses a greater distance allowing more wheel wraps of string to play out. An antenna from a broken boom-box was used for the lever. Anything long, light, and not too flexible will work for the lever.
      • Reduce friction on the axle by minimizing the surface area of the support that contacts the drive axle. a axle support of thin steel has less friction than a hole drilled through a woodblock.
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      Things to consider

      • Wheel-to-axle ratio : For distance, use large wheels and a small axle. Think of the rear wheel of a bicycle; a small drive gear and a large wheel.
      • Inertia : How much energy does it take to get your car started? A lighter car requires less. Lower the mass of your vehicle for best distance.
      • Rate of Energy Release : If the energy is released slowly, the power is used more efficiently, and the car will travel further. One way to slow this release is to lengthen the lever arm. A longer arm travels a greater distance and allows more wraps of string around the axle. The car will go far, but more slowly.
      • Friction : Minimize friction on the axle by minimizing the contact surface area. A thin steel bracket was used in this example. At first, a hole drilled through a woodblock was used to hold the axle. This was abandoned because the larger surface area causes the car to use energy overcoming friction rather than traveling forward.
      • Traction : This is what you call friction when it is used to your advantage. Friction should be maximized where needed (where the string wraps around the axle and where the wheels contact the floor). Slipping string or wheels equals wasted energy.

      Warnings

      • There is a limit to the amount of available energy; the power of the spring. The car shown is near the maximum. If the lever arm were longer, or the wheels were any larger, the car would not move at all! In this case, the energy release can be "tuned" by pushing in the antennae some (shorten the lever).
      • Mousetraps are dangerous. You could break a finger. Use adult supervision. You could get injured and you can split the trap!
      • Be careful when dealing with tools, cutting wood, or with any harmful materials. You should always have adult supervision when working.
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      About This Article

      Article Summary X

      To adapt your mousetrap car for distance, use large, light wheels for less friction and greater inertia. For example, old CDs make great wheels to increase distance. If your car is a rear-wheel drive car, set the wheels on a narrow rear axle so the wheels turn more and travel further. You can also increase the distance your car will travel by making the frame lighter. Balsa wood is a great lightweight but sturdy material for your car. You can also use glue instead of nails or screws wherever possible on the frame to decrease weight. Try to use the most powerful mousetrap that you can and spray a little WD-40 on the axles to decrease friction and increase distance. For tips on how to trap on the frame, keep reading!

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