There are different ways that coaxial RC helicopters can be designed. The main rotors of a RC helicopter can be mounted in two ways. In conventional helicopters, a main rotor is mounted on the top of the fuselage, and a smaller tail rotor is added to the end of the fuselage. The tail rotor is used to control the yaw, and every other aspect of flight is controlled by changing the pitch of the main rotor blades. It’s also necessary to have a tail rotor so that the torque from the main rotors can be canceled out. Torque is created when the main rotor spins. For every action, there is an equal and opposite reaction, so the nose turns in the opposite direction.

Coaxial Helicopters – How Do They Work

Besides using the tail rotor to control the yaw, two main rotors can be mounted on the helicopter, and spun at different rates. The difference in thrust causes the helicopters nose to turn. This duel rotor design is used in several full scale helicopters. The CH-47 Chinook is a good example of this duel rotor design, and is frequently used as a military transport helicopter because of its large lifting capacity. RC Helis use the same principle, but most of the time each rotor is mounted on the same axial, hence the term “coaxial”.

Twin rotors that spin in opposite directions

The rotors of a coaxial helicopter need to spin in opposite directions to cancel out the gyroscopic force. On some helicopters, both rotors are mounted on top of each other The main axial of a coaxial helicopter is actually two separate axils. One axial is mounted inside the other. Each sub axial is connected to a gear at the base of the main shaft, and each gear is connected to an electric motor. These two motors operate independently of each other, so the speed of each rotor can be changed.

Since the rotors need to spin in different directions, the top and bottom rotor blades are curved in different directions. This is because each rotor needs to be traveling into the air flow in order to work. The bottom rotor spins in a clockwise direction, and the top rotor spins in a counterclockwise direction.

Two Channel Coaxial RC Helis

It is possible to build a coaxial helicopter so that it only needs two main rotors, and eliminate the tail rotor entirely. Tilting the main rotors forward slightly, results in a constant forward movement. These helicopters are great for beginners due to their simple controls.

Three Channel Coaxial RC Helis

In some coaxial helicopters, a tail rotor is still added. The tail rotor is oriented in the same direction as the main rotors. The forward and reverse rate of the helicopter can be changed, because this system allows pitch control. You can fly forwards, backwards and also hover with this kind of helicopter.

Four Channel Coaxial RC Helis

Even though the coaxial design is most frequently used in small, fixed pitch RC helicopters, it can also be used for models with cyclic collective pitch. The only difference between these models and the conventional designs is their lack of a tail rotor. As with the models above, yaw is controlled by changing the rate at which each rotor spins, but the rotors can change their pitch. This allows the helicopter all four degrees of freedom: pitch, bank, throttle, and yaw. The Esky Lama V4 is good example of the four channel coaxial design.

How The Coaxial Design Benefits RC Helicopters

• Yaw can be controlled by changing the speed of the main rotors, so the pitch can be controlled with the tail rotor.
• The main rotors spin in opposite directions, which gives the helicopter stability.
• Coaxial RC helicopters are a good way to learn how to fly, because they are very stable.

MiniCopter: Adventure Flight for the Nintendo Wii is a new video game where you control various RC Helicopters. The game is controlled by the Wii remote or a classic controller – your choice. MiniCopter: Adventure Flight has 42 different missions and 7 landscapes making this game a blast for any RC helicopter fan. Your RC helicopters can be modified with various body kits and performance parts to improve performance. A two player mode lets you and a friend race your rc helis in an effort to collect the most rings.

Here are some screen shots from the MiniCopter: Adventure Flight for the Nintendo Wii.

See 117 more screen shots

Read more about MiniCopter: Adventure Flight, an RC helicopter video game, at the IGN Web site.

Officer.com recently published an article about police department creativity. “When the right tool for the job isn’t available, law enforcement can get remarkably creative.”

One department even outfitted a hobbyist’s remote-control mini-helicopter with a wireless camera to create an inexpensive yet functional piece of aerial surveillance equipment.

They don’t say what brand of RC helicopter they used or even what kind of wireless video camera system they retrofitted it with. One popular wireless video platform used by some police departments, videographers, and hobbyists is the Draganflyer SAVS from Draganfly Innovations Inc.

A remote controlled (RC)mini-helicopter may appear to be a neighborhood child’s toy but could be outfitted with a wireless camera to provide surveillance without moving officers too close to the situation.

Read the entire Officer.com article, The Products of Ingenuity.

There are many different accessories that an rc helicopter pilot will use. Certain accessories will be necessary wherever you fly your model. We will look at a sample of the different items that are good to keep on hand, and what they are used for.

Spare Batteries and Charger:
A good battery is an essential part of your rc helicopter system. Your battery must be able to supply enough power to operate your electronics for at least one entire flight plus a safety reserve. You will need a charger to top up the battery between uses, or have a spare battery to use while the depleted one charges.

Hex and Nut Drivers:
These are essential for maintaining (and also building) your rc helicopter. A good set will last a long time, and make adjusting hard to reach bolts at the flying field easier.

Ball Link Pliers:
Ball link pliers are specially designed to disconnect the ball links on your model. These pliers make disconnecting ball links easier, but the same task can be performed with a pair of needle nose pliers.

Pitch Gauge:
To adjust the pitch of the rc helicopter’s rotor blades, you will need a pitch gauge. Make sure to get one with a large, easy to read scale.

Fuel and Fuel Accessories:
In addition to adequate fuel, a mechanical or electrical fuel pump with a few feet of fuel tubing makes filling easier. Spare silicone fuel tube to replace worn lines, a spare fuel filter, and a spare air filter are good to keep on hand.

Glue/Filler:
When you are flying your model, it is always useful to have some glue to do repairs with. With both CA glue and epoxy you will be prepared for most minor mishaps.

Spare Fasteners and Rotor Blades:
Spare nuts and bolts are needed in case one on your rc helicopter breaks. Keep a small case of these in your field box. Spare rotor blades are very important, because a broken rotor blade can put an end to a practice session.

Field Box:
A field box is ideal to carry all of your tools, fuel, and other accessories in when you fly your rc helicopter.

Having these parts along with you when you go out to fly your rc helicopter can be a great time saver.

After building your rc helicopter, you will need to make several adjustments before flying. This is a critical step, small errors here could lead to a crashed rc helicopter later on. Be sure to carefully follow the instructions that came with your model while making these changes. We will explain one or two things that probably differ from your instructions, but follow these general tips, and you will have an rc helicopter suited to learning to hover.

We talked about the set-up of the throttle in the article titled “Choosing a Radio For Your RC Helicopter“. You will need to ensure that every control moves freely. Do this by disconnecting the linkage from the servo, and move it back and forth. If it moves with little resistance, and moves the control surface as much as it needed, then it’s fine. Match the throttle servo arm to the throttle by adjusting the throw of the servo, or the length of the servo arm. Make sure that the throttle is neither completely closed on idle, or over driven when open. Make these adjustments with the throttle servo disconnected, so as not to overdrive it accidentally. The throttle arm should be 90 degrees to the body of the servo when at idle, to improve the effectiveness of the trim. When the throttle stick and the trim at at idle positions, the carburetor should be closed. This will turn off the engine, and it is important that you be able to do so in an emergency. When the throttle trim is increased fully, it should move 1/8 of an inch. This movement should allow the idle of the rc helicopter to be adjusted, and the engine to turn off.

The tail rotor will need to be adjusted so that the blades have a small positive angle of attack when the rudder servo is neutral.

The gyroscope will need to be adjusted so that it controls one quarter of an inch of the rudder movement.

Collective pitch can be adjusted until the movement is from 0 to 5 degrees. This aids in making the rc helicopter more controllable when learning how to hover. Having negative pitch available can allow the rc helicopter to descend very rapidly, and large positive pitch can make it climb higher than is desired while learning how to hover.

The collective pitch can be set using the pitch gauge using the following method:

1. Turn the radio system on.
2. Level the swashplate using the elevator trim tab on the transmitter.
3. Attach the pitch gauge to a rotor blade, making sure to keep the tail boom, flybar, and swashplate level.
4. Using the transmitter, move the collective pitch to it’s upper and lower maximums, and note the pitch on each.
5. The pitch range is the difference between the upper and lower pitch limits, we want a window of 5 degrees.
6. The window can be adjusted by changing where the push rod attaches to the servo. Moving it in will cause the window to decrease, and moving the push rod farther away will decrease the window.
7. The maximum pitch needs to be 5 degrees, do this by altering the length of the rod from the head to the swashplate
8. Repeat steps 3 to 7 for the other rotor blade.

By following these simple procedures, you can prepare the rc helicopter for it’s first flight, and reduce the chances of a crash.

The single most important thing you can do when assembling your rc helicopter is to follow the instructions. This may seem obvious at first, but it is the single biggest factor in determining whether the construction of your model is successful. I can speak from experience on this. When I was building my first model I rushed through the construction, taking many shortcuts. This lead to me spending the entire flying season undoing the damage I did to get it to fly. The moral: do not let this happen to you. Take your time, read the instructions before starting, and if something doesn’t make sense, ask before going any further.

Now that we have clarified that, I will show you the general guidelines for building your first rc helicopter model.

The first thing to do when your rc helicopter kit arrives is to not open the box. Do no open the box until you are completely ready to start construction. All of the parts will be packed neatly and efficiently, so if you take them out, you are likely to lose them. Find a place to work on your rc model where it will not be disturbed by dogs, cats, or small children. The work surface should be flat, and large enough to set out all of the rc helicopter components neatly. Refer to the article titled “Basic Tools for RC Helicopter Repair & Maintenance” for a list of the tools you will likely need. Once you have the place, time, and tools to work on your model, you can begin construction.

As you proceed through the instructions, check off each step after you complete it. This way you will not lose your place when you come back. Nuts used in the rc helicopter sometimes have an insert in them that prevents them from vibrating loose while the model is in flight. If they don’t, use blue locktite to secure them. Be sure not to confuse this with red locktite, which is permanent. It is very easy to strip the heads and threads of the different screws that you will be using during assembly. Getting a stripped screw out of its hole is not an easy task, and it is better to simply not over tighten them in the first place.

Ensure that the engine cooling fan is balanced, because if its not, the resulting vibration will affect the entire rc helicopter. If it isn’t perfectly balanced when you get it from the manufacturer, you can correct it with a small amount of sanding. Once installed, make sure that this fan runs true.

It is critical that the mesh between the main gear and the pinion gear is correct. If it is too tight, friction will waste power and wear out both gears. If the mesh is too loose, then the gears will rattle back and forth, causing vibrations and wear in the system. Some rc helicopters are made to such a low tolerance that there is no way to adjust the mesh of the gears. If the rc helicopter allows it, move them in or out until they turn freely, without either friction or excessive play.

When assembling the smaller components of the head, swashplate, and washout unit, be careful to do it accurately. Use locktite to secure all of the bolts, and do not overtighten. Make sure that the resulting parts have freedom of movement and that the control is not sloppy.

Constructing the tail rotor gearbox requires special care. The gears must mesh properly, for the same reasons mentioned above. Align the position of the setscrews so they tighten against the flat spots on the shafts. Some gearboxes provide a way to lubricate the gears after construction. If yours does not, then you will have to lubricate it well before it is sealed. The gears will wear out quickly if you do not apply enough lubricant.

Balancing the tail rotor blades is also important. To do this, mount the blades on the center hub and place the system on a high point balancer. Adjust the balance by sanding, or adding blade covering material. When installing the tail rotor blades, make sure that they are not too loose or too tight. This is essential for smooth operation. They should be tight enough to not fall under their own weight, and loose enough to move freely.

The tail boom can be secured to the fuselage with a small bolt, inserted into a hole drilled into the boom and the main frame. This can prevent the boom coming loose if its attachment to the main frame fails. The horizontal fin does not affect the flight characteristics of the helicopter in any significant way, but the vertical fin does. The vertical fin contributes to the helicopters yaw stability, and it is important to have a large one while learning to fly your model. You can make one with light plywood, but be sure to fuel-proof it. If the fin extends below the tail rotor, and can help protect it.

Fuel tanks are mounted differently between models, but here are some points to consider when mounting your tank:

• Protect the tank from vibration with foam rubber, to prevent the fuel from foaming with small vibrations
• The clunk in the fuel tank should be able to move freely, and should also reach the bottom of the tank
• Fuel filters are good, they can be either attached to the fuel system, or the fuel can filtered before use
• Pressurize the fuel tank by attaching one line to the muffler, this will increase fuel flow
• Adding an extra, or header tank is also fine, but it does not affect the fuel flow to the engine

The blades for your rc helicopter will need to be balanced. This is one of the cheapest and easiest ways to do it:

1. Find the spanwise center of gravity by balancing the leading edge of each blade on a pencil, and then mark the center of gravity.
2. Determine if the balance points on each blade are the same by lining them up. If the balance points match, then no further adjustments are necessary.
3. If the balance points do not match up, then add electrical tape to the tip or root of the blade as required.
4. Mount the blades on a blade balancer to determine their relative weights. These need to be equal, so if they are not, add electrical tape to the centre of gravity of the light blade, until balance is achieved.

The blades of the rc helicopter will have to be made visible, while in flight. You will need to tell between the two different blades, and see the rotor disk. The former can be accomplished by placing different colors of tape on the ends of each blade. The former can require strips of blade covering material, in a color that contrasts the rotor blade, to be applied to both rotor blades.

After the assembly process is complete, you should have a finished model that you can be proud of. Make sure that everything looks right, and enjoy flying your new rc helicopter.

There are several basic tools that you will need to get the most out of your RC helicopter.

Basic tools that you will need are as follows:

• Standard pair of needle nose pliers
• Screwdrivers, both standard and Phillips
• Hex drivers of various sizes
• Hobby knife with assorted blades
• Rulers – both metric and imperial scale
• Drill – cordless is best
• Sandpaper – several grades
• Glue – thin and thick CA, slow and long cure epoxy
• Soldering iron and solder
• Scissors
• Wire cutters
• Rubber bands
• Grease and light oil
• Loctite to prevent parts from vibrating loose

There are several other, more specialized tools that you may need as well. They are:

• Rotary tool – Extremely useful for grinding, polishing, and sometimes drilling
• Servo tape – Comes in several different thicknesses, double sided and good for securing radio and other components
• Ball link pliers – These make it easy to remove ball links from your servos
• Ball link driver – like hex nut driver, but holds a ball link
• Small screwdrivers – Sometimes really small screws are used in model construction
• Metric tap and die set
• Open end wrenches – you only need the smallest ones
• Toolbox – to carry your tools with you and store them in an organized way

If you have all of the basic tools, and even some of the more specialized ones, you will have a complete toolbox that will help you in both building and repairing your rc heli.

In this article, we will look at the procedure for installing the radio system of an rc helicopter.

Before proceeding to install your radio system, you will need to do some tests to ensure that it will function properly in the rc heli. The range test should be performed according to your radio manufacturers instructions, but here is a general procedure.

1. Ensure that both the transmitter and receiver batteries are fully charged.
2. With only the battery and servos connected to the receiver, turn both the transmitter and receiver on.
3. Collapse the transmitter antenna .
4. Walk away from the receiver, while moving the transmitter sticks.
5. Continue walking until the servo movements become erratic.
6. Walk back towards the receiver, and stop when control returns to normal.
7. Compare this distance with the specified minimum range check distance in your owners manual.

If the distance you found is less than the specified distance in your manual, then the radio is not safe to use in your model and will have to be sent back to the manufacturer for repair.

Before mounting the servos in your rc helicopter, ensure that the throws are at 100%, and that the servo arms are set perpendicular to the servo body. Also, center all the trims and make sure that the batteries in both the receiver and transmitter are fully charged. This is important because all adjustments you will be making require the radio to be on. When you are about to attach the servos to the fuselage, disconnect the battery and servos from the receiver. It is important that only the rubber grommets supplied with your servos touch the rc helicopter body, and that the mounting screws are tight enough to compress the grommets. Do not tighten the screws too much, or the grommets can become too compressed to much to be effective shock absorbers. Once the servos are installed in the fuselage, reconnect the battery and receiver. After double checking that the all the trims are set to neutral and that the servo arms are mounted properly, you can proceed with installing the ball links onto the inner holes of all the servos.

The rc helicopter should come with pre-cut pushrods. Install these on the servo arms by either screwing on the ball links, or using snap on clevises. If you are using the snap on clevises, be sure to secure them by sliding on a piece of fuel tubing. This will prevent them from coming loose in flight. Once the aileron linkage is connected, move it with your hands to see if the swashplate moves freely, without friction. Install the other linkages in the same way, but be careful to match the throw of the throttle servo to the carburetors range of travel. If this is not done properly, it can cause overheating and damage the engine. Also, be sure that an idle position on the transmitter does not turn off the engine completely. There still needs to be a way to turn off the engine, but this can be accomplished with the throttle trim tabs on the transmitter.

The gyroscope should be installed as shown in the owners manual. Make sure to place it where it is unlikely to be damaged. Most rc helicopters will have a specified location for the gyro. Use servo mounting tape to attach the servo, this will insulate it against vibration and attach it firmly to the fuselage.

Mount the on/off switch on the side of the rc helicopter opposite the exhaust. Also, mount the switch in a place where it will be easy to access. Orient it in a logical way, so that you will not turn it off accidentally.

The receiver and battery are now ready to be mounted. Before proceeding, cover both with plastic wrap to protect against fuel, dirt, and other contaminates. Pack them with rubber foam, and secure them with rubber bands. Depending on the type of antenna your radio system has (wire or whip), the antenna will have to be either routed outside the helicopter, or left inside the canopy. Be sure to follow the instructions in your owners manual, and don’t wrap the antenna around itself. This will reduce it’s range and could lead to a crash.

In addition to using the tips above to help you install your radio system, always read the user manual of both your rc helicopter and your radio system.

If you have purchased an rc helicopter in kit form, you will then need to get a radio for it. The radio system is responsible for sending control signals to your rc helicopter. When you move the sticks on the transmitter the motion is converted to signals and sent out by the transmitter, picked up by the receiver, and relayed to the servos which control the flight of the rc helicopter. There are several types of radios available, and each has different benefits and costs.

A common question is whether or not an rc airplane radio can be used in with an rc helicopter. The answer is yes, but you will have less control options than you would when using an actual rc helicopter radio.

An rc helicopter radio is different from an airplane radio in several ways. The most important is the throttle for an rc airplane is used to control the engine speed, not the collective pitch. In an rc helicopter, both must be controlled. In order to use this kind of radio with an rc helicopter, both the engine throttle and collective pitch servos must be linked together via a Y harness. This will work, but you will have less control than if the pitch and throttle servos were independent of each other. Using this type of system works best in fixed pitch rc helicopters, because they do not use the collective pitch control in the first place.

When shopping for an rc helicopter radio, you will come across the term “channel” often. It has two different meanings, and each is important in your buying decision. It can mean either the number of servos the radio can control (which relates to the number of degrees of freedom the rc helicopter can have), or the specific frequency subset that the radio signal is sent on (the 72MHz frequency band is divided into channels numbered 11 to 90). A two channel radio can control two servos (for example the throttle and rudder servos). A three channel radio could have both throttle and rudder control, as well as elevator control. A rc helicopter will need at least 4 channels, and typically 5 or 6 channels. Some radios have many more channels, but these are not important to the beginner. The basic 5 channels control:

1. Aileron
2. Elevator
3. Throttle
4. Collective pitch
5. Rudder

The extra channel can be used to control gyro sensitivity or other functions. The cost of a radio system is highly dependent on the number of channels available. When buying your first rc helicopter radio, try to get one with at least 5 channels. More channels will enable you to use more advance features as you progress in the hobby.

Radio systems can also use different methods to transmit their signals. These can be FM, PCM, or PPM, or spread spectrum. The most basic is FM, or frequency modulation. This method is the same type used by FM radio stations, but on a different frequency. Many FM radios can operate simultaneously as long as they are on different frequencies or different channels on the same frequency. If two radios are operating on the same frequency and the same channel, interference will results and one or both of the models flying can crash.

PPM (or pulse proportional mode) radios are better than a normal FM radios because they can operate servos at a higher resolution. The radio transmits by first sending a timing pulse, and following this with the actual command information. The advantage of this system is that the receiver knows what to expect before the command arrives. A different timing pulse is sent for each control channel, and this cycle repeats many times per second. The rate at which these pulses occur is called the pulse rate of the radio. A greater pulse rate gives better control, but getting a high pulse rate radio is not so important for the beginner or casual flyer.

PCM (or pulse code modulation) is similar to PPM except that each pulse is coded. The rc helicopter will only respond to signals with this specific code. This means that it will cope better to interference. Although this technology is helpful, it does not make the rc helicopter immune to all interference. If another pilot turns on a radio using the same frequency and channel, the rc helicopter can still have its signals washed out by the other transmitter and crash.

A synthesized radio lets the pilot transmit on different frequencies. This is helpful when you are flying at a club where there are many other pilots, because you do not have to change the crystal in the transmitter and the receiver to change channels.

The most recent radio technology eliminates the need for channel frequency control, and is immune to almost all forms of interference. Spread spectrum radios can transmit and receive on multiple channels, at a frequency of 2.4 Ghz (2.4 billion cycles per second). This kind of radio automatically scans for two free channels when is is turned on. When it finds them, it uses both to transmit and receive. Spread spectrum technology is becoming more popular, and it will eventually replace the other three kinds of radios mentioned above.

Besides the type of radio, you will have to consider different types of servos to use in your rc helicopter. There are many different types, the broadest categories being: standard, coreless, and digital. Standard servos are the least expensive, but they also provide the least performance. Since the motors they use have coils wound on a rotating iron core placed between stationary magnets, they will not be able to start and stop as quickly as the coreless variety. These servos should really only be used to control the throttle of the rc helicopter. Coreless servos are the same, except that the motor inside them has coils that are rigid and rotate around a stationary magnet without requiring an iron core, and are able to accelerate more quickly. These servos typically have better resolution and more torque than their cored counterparts. Digital servos use a digital amplifier to achieve even better resolution and accuracy. Digital servos can be cored or coreless are better than non-digital servos for several reasons, including:

• More accuracy
• Faster control response
• Greater torque

These are the best type of servo, but they may not be in within the budget of the beginner. Whatever type of servo you choose, make sure that it has ball bearings supporting the output shaft. This will result in both smoother operation, and longer servo life.

Be aware that most radios come with only four servos, and you will have to buy a fifth yourself.

The last major radio component is the battery. The battery is used to power the various radio components. Most batteries are of the four cell variety, and supply 4.8 volts. This is sufficient for most models, but a 5 cell pack producing 6 volts can be useful. The more voltage you have available, the faster the servos will respond. For your first model, you should consult the instructions that came with it to determine what type of battery pack to use.

Several other radio features include, but are not limited to:

Tail rotor compensation:

Tail rotor compensation keeps the nose of the rc helicopter pointed in the same direction. This is accomplished via a gyroscope (which is explained in a previous article, ‘Introduction to RC Helicopter Gyros, Rate & Heading Hold’) telling the tail rotor how fast it needs to spin. When the pilot adjusts the pitch or throttle of the rc helicopter, the torque from the blades causes the nose to move in the opposite direction, and thrust from the tail rotor is required to counteract this.

Exponential:

Exponential allows the pilot to control how sensitive servos are. With this feature we can tell the servos how much to move for a given amount of stick movement on the transmitter. This can allow smoother control for small movements, and sharper control for large movements of the transmitter stick.

Gyro gain:

With this feature the pilot can control the sensitivity of the gyroscope on board the rc helicopter. This feature can allow for more stable flight, or easier aerobatics depending on the setting.

Electronic digital trim:

Trim can be used to correct undesired motions of a rc helicopter. It controls the adjustments of various servos during flight. For example, if I were flying a model with a slight left bank, I would slide the aileron trim lever in the opposite direction, to apply a right correction. These would cancel each other out, resulting in straight flight.

Programmable switches:

These are various extra switches located on the transmitter that enable the pilot to control special functions.

Multiple model configuration / switches:

This feature will let the transmitter control multiple models by storing the different settings for each. This is a good feature to have, because you can use one transmitter for several models, no matter how different they are. A memory feature will allow the transmitter to store this information.

Servo endpoint:

An adjustable servo endpoint will allow adjustments to the maximum throw of servos. This can be used as trim to compensate for undesired motions, by reducing the travel in the opposite direction.

Condition / flight mode:

This feature will allow different adjustments to flight parameters for different flight modes. This increases performance in all phases of flight, and is a very good feature to have.

When buying your radio, carefully consider all of the above features. If you’re unsure about your choice, you can ask more experienced pilots for help. If you take good care of your radio, it should last you many years.

In Part 1 of this tutorial, we looked at the different terms that you would encounter when shopping for rc helicopters. In Part 2 we will look at different points to consider when buying your first rc helicopter.

Should You Buy A New or Used RC Helicopter:

• Most new rc helicopters are sold in kit form, with the consumer assembling the product. This can be a problem for the novice, as kits can have several hundred parts.
• If buying used, ask to see the rc helicopter flown. It normally does not matter if the rc helicopter was ever crashed, as long as the broken parts have been replaced.
• If you are unsure about the condition of the rc helicopter, you can always ask another pilot to look at it with you.

Operating Costs of RC Helicopters:

• Visit your local hobby store and look at the various parts you will need. The cost of replacement parts is important.
• Find out what kind of fuel or batteries your rc helicopter uses. Costs vary depending upon the amount of nitro in the fuel or the number and capacity of lipo cells.
• If you plan to become a member of your local rc club, consider the membership costs.

Where to buy RC Helicopters:

Consider these points when choosing where to buy your rc helicopter.

Online:

• There are many online hobby stores. These stores usually have lower prices than conventional hobby stores due to the increased number of sales.
• Obtaining your rc helicopter at an online establishment usually means you can get your heli sooner, even if it is out of stock. A conventional hobby store can take weeks to restock a part you might need.
• When purchasing your helicopter on the web, it can be harder to find exactly what you need. Instead of being able to ask a store representative to help you find what you need in person, look for the availability of ‘live help’ or ‘live chat’ features .
• If you do purchase your helicopter online, make sure that the organization is respectable, and that they will stand behind their product.

Hobby store:

• At a hobby store, you can actually see and touch the items you are buying. This helps when comparing brands and to get a feel for the scale/size of the rc helicopters.
• Also, the dealer will most likely have several used models available. When the time comes to get a new rc helicopter, these can be a good deal.