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![Fifteen Years of Ask Aaron [Click Me]](pic2/Ten_2.gif)
Team Run Amok receives a lot of email about designing and building combat robots. In 2003 my son and team member Aaron Joerger (then 12 years old) asked for a question and answer page to document our responses.
We welcome combat robot questions. Check the Ask Aaron Archives first to see if your question has already been answered, then click the blue button.
Click to browse thousands of previously answered questions by category, or search for specific topics. Includes  
Even small combat robots can be dangerous! Learn proper construction and safety techniques before attempting to build and operate a combat robot. Do not operate combat robots without proper safeguards.
Q: I'm having trouble setting up my new FS-i6 transmitter with my endbots desc. I set up the FS-i6 with elevon mixing according to the instructions in your FlySky FS-i6 Transmitter for Combat Robotics guide but I can’t get the channels to behave. Moving the stick up with neither channel reversed, the right side moves forward and the left backwards. Reversing channel one has no effect, and having channel two or both reversed results in the left moving forward and the right backwards.
What am I missing? The wiring is the same as I had working on my last transmitter and I’m pretty sure I had just reversed one of the channels. Thanks! [Boulder, Colorado]
A: [Mark J.] The odd responses to stick input that you describe are expected if you have both transmitter 'elevon' mixing and Endbots DESC on-board mixing turned on. The transmitter mixing is much more configurable, so leave it on and turn off the Endbots mixing.
The Endbots DESC has an absurd an unusual method of selecting on-board mixing: it toggles on/off each time you calibrate the DESC. Recalibrating your DESC will turn off the on-board mixing and should fix your problem.
Reply: Desc mixing did the trick, thanks! 
Q: A builder on [social media] recently mentioned using a 2205 2300kv brushless weapon motor in their combat antweight. Was that a typo? Does anyone make an outrunner only 5mm thick? [Akron, Ohio]
A: [Mark J.] I understand your confusion. There are two ways to measure a motor for classification:
Q: So I recently got a FrSky QX7 Transmitter to replace my dying HobbyKing entry transmitter, but frankly, I'm a little overwhelmed - seems a lot of the OpenTX and Taranis tutorials are geared towards planes, so filtering out and applying the information I want is proving tricky. I've successfully bound the receiver to the tx, but I need to do the following:
A: [Mark J.] There is very little that an OpenTX transmitter cannot be set-up to do, but all that capability comes with a large and complex system of menus and adjustments. Figuring out how to implement even simple functions can be a challenge. Before you buy ANY radio, download and read the manual.
If it doesn't make sense to you, buy a different radio.
Q: Brushless drive motors have me really confused. My beetle has brushed motors but I'd like to build a feather and it seems that everybody is using brushless for their feathers. I don't know where to start. Is there a beginner guide someplace? [Pittsburgh, Pennsylvania]
A: [Mark J.] My usual advice for beginners in any aspect of combat robotics is to look at what successful builders are doing and follow their example. That doesn't work very well with brushless drive where the difference between poor and excellent performance relies so much on the unseen ESC firmware and user-modified settings. Unfortunately, both firmware and currently favored settings change quite frequently.
I've pulled together a collection of posts from the Ask Aaron archives that may be of some use in selecting suitable brushless motors for both weapon and drive use. It also contains a complete 'off-the-shelf' solution for featherwight brusless drive that requires no modification:
New Archive Feature!
You can now take a tour of posts in the Ask Aaron Archives that have been referenced to answer new Ask Aaron questions -- let's call them Less Frequently Asked Questions. I'm testing it in the 'Radio and Electrical' archive, but if it proves popular I'll convert the other archives as well. Click the green button and give it a try: Q: I've been watching videos about battle hardening brushless outrunner weapon motors. Doesn't globbing a lot of epoxy on the outside of the stator increase heat build-up? How much epoxy do I really need? [Ames, Iowa]
The epoxy that soaked in between the windings now aids cooling via improved conduction, and the wires are bonded together to prevent shifting.
Q: Seth Schaffer gave you a shout out on [social media site] for solving the weapon instability problem he had with his antweight "Mini Mulcher". What did you tell him? [Tacoma, Washington]
A: [Mark J.] Seth is just showing his appreciation for a very small pointer. Both Justin Marple and I remarked that the long, narrow, and heavy weapon blade on antweight 'Mini Mulcher' was a prime candidate for a bad case of 'polhode instability' that would explain Mini Mulcher's wild gyrations.
Q: I don't understand what caused Mini Mulcher's instability. The weapon was spinning on it's "maximal inertial axis" which should be stable. What went wrong?
A:
Yes, according to the intermediate axis theorem it was spinning on a stable axis and everything was fine... until there was a change in the stored energy level. A change in stored energy will induce a small polhode motion wobble.
Flashback Post from 2018:
Q: Is there a calculator to determine if a bot will flip over based on the MOI of the weapon, the distance from the wheels to the weapon shaft, and the diameter of the wheels? Can you calculate how fast you would be able to turn based off the information from the spinner spreadsheet? Does overall width matter in stability of the weapon and in the turning ability of the bot - are wider bots more stable?
Many Thanks! [New Castle, Pennsylvania] A: [Mark J.] Yes there is a calculator, but the variables used by the calculator are a little different. It will tell you how fast you can rotate without wheel lift, and if you know the weapon MOI you don't need the spinner spreadsheet. All the design factors are explained on the calculator page. So... where is this calculator? If your question starts with 'Is there a calculator...' your first stop should be the 'Combat Robot Design Tools from Team Run Amok' page:
...I realized that there was another tool that should be salvaged from the wreckage of the T.i. Combat Robotics site. Their 'Designing Around the Gyroscopic Effect' page has a full explanation of the forces at play when a vertical spinning weapon exerts a lifting force on a turning robot. That page is now safe here at RunAmok.tech.
Follow the link above to our design tools page and scroll most of the way down the page to find the link to the 'Total Insanity Gyroscopic Effect Calculator'. I'd give you the direct link here, but you'll benefit from looking over the other tools on that page.
After walking you thru the math, the page offers a simple javascript calculator that will model the stability of specific robot designs to let you know how serious the gyro effect will be on your planned robot. If you're designing a big drum or vertical disk/bar spinner you'll want to make use of this calculator to avoid unpleasant surprises in the behavior of the finished robot. Q: Which weapon type is good for beginners? I know wedge is the best but because my local event has active weapon rule, I can't build wedge. So could you tell me which one is recommended and which one is not? [Seoul, Korea]
If your first robot must have an active weapon, concentrate on the basics and build a robot that does not rely on its active weapon to be effective. Start with a strong, capable chassis with a wedge and enough weight allowance left over to add a small active weapon system. The weapon can be whatever you're comfortable bulding. A simple electric lifter would be a good choice, but don't allow the active weapon to compromise your strong drive train and wedge. Your active system is secondary and entirely expendable.
Aaron's Wisdom I've said this often but builders don't want to believe me:
The weapon may be the least important system on a combat robot.
If you're not winning matches it isn't because you have a poor weapon. Drivetrain, radio set-up, general construction practice, and weapon/chassis balance are all much more important than the type of weapon you choose. There are plenty of examples of winning robots with ineffective weapons, and there are many more examples of losing robots with awesome weaponry. If you get the basics right you're going to have an above average robot no matter what weapon it carries.
Q: Somebody made a comment about the "hamburger is bad" rule on [a combat robot social media site]. Can you tell me what that rule is? [Henderson, Nevada]
'Ask Aaron' has a long history of receiving requests for very specific recommendations on materials or components that provide far too little information for us to give a useful answer. We needed a name for this type of question and a way to explain our problem in answering. In 2010 we published a webpage titled "The Hamburger is Bad" that uses a fictional exchange of questions and answers about whether a 1/4 pound hamburger is good to depict the problem. The name caught on in the combat robot community.
So, "the hamburger is bad" is not so much a rule as a shorthand request to provide adequate information when asking a question.
Q: I have a 3S LiPo and I want to run the drive on the full 11.1 volts and tap the balance plug to get 7.4 volts for the receiver and servo. I'm worried about screwing something up and getting a short thru a 'ground loop'. How do I do this safely? [Social Media]
A: [Mark J.] You're wise to worry. If you tap the balance plug incorrectly you will have the receiver 'ground' at a different voltage potential than the drive 'ground' and bad things will happen: wires melting, LiPo cells exploding, the works.
Make sure everything uses the same ground and you'll be fine.
Q: Maybe it's just my imagination, but Hypno-Disc was always interesting to me in that it when it turned, it would turn about a point that was closer to the front of the robot rather than the centre and sling the back out. How did it manage this? Was it just weight distribution that caused this effect or was it something about the wheels? [Ashford, England]
A: [Mark J.] It's not your imagination. I won't comment on 'Hypno-Disc' directly (see FAQ #37) but I will direct you to the Hypno-Disc website where you may notice some differences between their front and rear tires starting in Series 5.
You may also find this post in the AskAaron Archives interesting.
Q: "Mounting plates" sold by Fingertech have served me well on ant & beetle motors, is there an equivalently easy solution for fairyweight motors? [Woburn, Massachusetts]
A: [Mark J.] The popular 'N20' style motors used in 150 gram 'bots are constructed differently than commonly used ant and beetle motors. They require greater support for their open gearboxes than 'face mount' style plates like the FingerTech Flat Motor Mount provide.
A search for "N20 mounts" will find many clamp-style mounts, like the Pololu Micro Metal Gearmotor Bracket shown. That's your fairyweight equivalent easy solution.
Q: How do I charge a 36v Li-ion battery like those found in hoverboards? [Roseville, California]
A: [Mark J.] Call me crazy, but have you considered a 36v lithium charger? Lithium batteries need 'smart' chargers that carefully monitor the charging process. Hoverboards and scooters have on-board charger electronics and just need a power supply, but you'll need a complete charger. Do not use any charger not intended to charge the specific type of lithium battery you're using. Improper charging can very easily result in a fiery and explosive failure of the battery.
Note The battery you reference does not have the high discharge rate commonly needed in a combat robot. A typical combat 4400 mAh LiPo battery would have a max continuous discharge rate of more than 250 amps, while the battery you reference has a discharge rate of only 30 amps. If you can live with that low discharge rate, shop around a bit; I've seen that same battery from other sources for half that price.
If you're interested in the technical details of lithium ion battery charging, check this article at Battery University.
Q: I'm using a 20A Afro esc flashed with blheli to power a Turnigy 2209-980 brushless outrunner. I'm also using a Turnigy 850mAh 3 cell battery to power all the electronics. 30c-60c discharge. At low and high rpms, the weapon, when it gets a good hit on something, shuts off and re calibrates. I have installed a large capacitor between the battery leads that helps with this problem quite a bit. Anything above 50% power on the throttle shuts down the weapon when it gets a good hit. Rapidly throttling the power all the way up to 100% also achieves this.
While watching the electronics during the incident, they all seem to shut down for a quarter of a second before coming back on and re calibrating. On my previous robot with a drum spinner, I also had this issue with a 750kv motor. During the competition I was able to wait for the electronics to come back online and drive away. If you need any other information about the electronics or the robot, just tell me. [Arlington, Virginia]
A: [Mark J.] The clue to the cause of the problem is that your installation of a 'large capacitor' across the battery leads helped. You're getting a serious voltage drop when the weapon motor is pulling a lot of power and your electronics are 'browning out'. Two possible solutions -- I'd do both:
Q:'UnMakerBot' builder Zach Goff says his lightweight champion has a reprogrammed quadcopter brain that keeps it from flipping over. Is this real? How does it work?
Zach has expanded on this by repurposing a multirotor flight controller with three solid-state gyros aligned at right angles to each other to detect rotation in any of the three axis of motion: pitch, roll, and yaw. Unlike an aircraft, a combat robot has no direct control over motion in the pitch and roll axes -- but information about movement on those axes can be used to modify robot motion in a way that may keep it out of trouble:
Flashback Post from 2018:
Q: I see several different brands of brushless ESCs labeled 'OPTO'. What does that mean? When would I want 'OPTO'? Would it ever be a bad thing? [Pomona, California]
A: [Mark J.] A complete answer requires a bit of history.
Back in the day...
The small, high-power brushed motors powering early electric model aircraft created a huge amount of high-frequency electrical 'noise' and voltage spikes from the arcing of the motor brushes at high speed. This 'noise' traveled along the power wires and found its way to the sensitive and vulnerable electronics in the R/C receiver, wreaking havoc with reception.
To protect the receiver from this electrical noise, 'OPTO' speed controllers included a device called an optical isolator in the line between the receiver and the power circuits. This 'opto-isolator' converted the receiver output signal to a modulated light beam, then back to an electrical signal for the ESC. Electrical noise couldn't jump back across the optical gap to get to the receiver. Genius!
But there's a catch...
If you use a battery eliminator circuit (BEC) to power the receiver from the main battery pack the electrical noise can use it as a path to the receiver, nullifying the benefit of the opto-isolator. Fully isolating the receiver from motor 'noise' requires that the receiver have its own battery, so OPTO ESCs had no BEC. Inconvenient, but it worked.
Jump to present day
Brushless motors have replaced the 'noisy' brushed motors in model aircraft and the need for opto-isolation no longer exists in most applications. Few brushless 'hobby' ESCs have an optical barrier to electrical noise, yet many still carry the OPTO label. In current usage it's simply an indication that the ESC has no battery eliminator circuit. Eliminating the BEC shaves off a couple grams of weight and eliminates the need to 'clip' the red power line in the receiver cable when multiple BEC equipped ESCs are on the 'bot.
You need something in your power system to provide power to your receiver, and a convenient way to do that is to make sure that one of the ESCS for the weapon or drive motors has an BEC -- but you only need one.
Q: Hi there. I’m looking for information on competitors who competed at San Fransisco Robot Wars event in 1997 and I’m also looking for pictures of them. Thank you. [Apparently from New Zealand, via two proxy servers in the UK]
A: [Mark J.] Info from the 1997 San Francisco Robot Wars is more difficult to obtain because the entire US Robot Wars organization was shut down immediately following the event. They didn't even have time to update their website with photos and results. There are a few good sources of info and photos:
Q: What are the materials that are used to make weapons in combat robots? [Digital Ocean]
A: [Mark J.] Your question comes from a web server associated with web proxy services that mask user location. Please remove your VPN service and resubmit. If you have nothing to hide, don't try to hide it.
Q: Hi Mark. Thank you for sharing your snail cam design. I work in a different field and am interested in using it to generate impact. We have a tight space, the minimal cam radius is 5mm and the maximal cam radius is 8mm. We want to use disk spring to generate 1000N impact force. Do you see if it is possible? Any comments will be appreciated. Thank you! [Weston, Florida]
Here's a link to a good article at wired.com: How Do You Estimate Impact Force?
Q: Given that μ = 52, σ = 35 and n = 35, what is A: [Mark J.] Not a robot question, but it's a slow Saturday morning and I do have a minor in math...
Calculate the Z-score:
Z = (x - μ) / σ = (73 - 52) / 35 = 0.6 Consult a Z-score table: P(x ≤ 73) = P(z = 0.6) = 0.7257 P(x ≥ 73) = P(z = -0.6) = 0.2743 
Q: hi ive been enjoying reading you site for a few years finally decided to ask a questions hopefully this doesn't qualify for a bad hamburger or cheerleader question
anyway im currently designing/building a 30lb ring spinner (not a good idea but i like a challenge) and im looking at ways to power the ring so currently my plan is to use two brushless motors on a 3 to 1 ratio on the inside of the ring via a large hdpe ring gear. my main concern with this is that the impacts would damage the weapon motors or break teeth off the inside of the ring so my plan is to use a ridged tpu [Thermoplastic Polyurethane] my thinking is that the tpu teeth would flex and "skip" on a big hit protecting the motor would this work or am i just going to rip apart the rubber if this wouldn't work what would you suggest to protect the motors. i unfortunately cannot use belts due to a lack of internal space (mostly rubbish design on my part) i could run the motors with wheels on to drive the ring but my fear was that i wouldn't be able to get the torque required to spin the weapon heres some info that might be useful
A: [Mark J.] Well, you already know that a ring spinner is a bad idea -- that saves me some time.
The combination of "flex" and "gears" is a bad one. The teeth are large, but I doubt you'd have enough clearance for them to flex enough to 'skip'. I worry that the flexi TPU teeth would distort under drive torque loading and jam at the gear interface, causing huge drag. That would bog down the motors and create enough heat to soften the plastic, creating more trouble.
I'm not a fan of friction drive for just the reason you mention. Stick with HDPE and make the ring and pinions as tall as possible for strength. I assume the pinion gears are mounted on the motor cans? Support both ends of the weapon motors: extend or reverse the motor shafts and add bearing blocks to the far end. If the ring support is strong enough you should be OK.
Q: Hello MarkI come back to you for our robot flipper machine. We followed your advice and installed a RC Polulu 2802 switch, but as regards the solenoid valve the best is a 5/2 model. Should the pilot be internal or external, and naturally open or closed? Thank you in advance for your advice.
A: [Mark J.] Hello, Jean Pierre...
For your purposes you'll want a solenoid operated valve with an internal pilot. Valves with an external pilot are for systems that must be able to actuate even when there is no pressure for them to control -- never the case in a robot flipper.
All 5/2 (five port, two position) pneumatic valves have two output ports. In the non-energized state:
Q: I stumbled onto some crazy butane jet lighters that are intended for cigars but seem pretty dang impressive. Would it be practical to put one of these in an ant or beetle? [The Aether]
A: [Mark J.] I fought against BattleBots champion Donald Hutson's jet lighter weaponed ant 'Incinerator' in a melee at 'Bot Bash' in 2002. Somebody ejected it thru a pushout quickly, but it continued to wander around the 'moat' attempting to fry the other 'bots that fell in. Donald's like that.
All flame bots are just for showing off -- they do not win tournaments. You need a method to turn on the gas and light the flame remotely because no organizer will let you 'flame on' before the arena door is locked and the match has started. Don't write back and ask me how to make that ignitor; if you don't already know how you're not ready to build a flame-bot. The event also has to allow flame weapons. Most organizers aren't too keen on 'bots that could melt holes in their expensive Lexan.
Q: I'm building a robot for a competition which was cancelled due to the COVID-19 obvious. Before everything was shut down, I was able to record the actual free-running RPM of the output shaft on one of the gearmotors. The RPM translates to about 14 feet per second. I'd like to have at least 8 feet per second in actual performance. I was curious what kind of decrease in speed I might expect when the robot is completely assembled versus this theoretical speed. Each motor would be driving two sets of wheels and I figured we would be close, but are there any methods I can use to calculate this that isn’t crazy complicated? Thanks! [Reddit/battlebots]
A: [Mark J.] Brushed Permanent Magnet Direct Current (PMDC) motors produce their maximum torque at stall, with torque falling away linearly with increasing RPM. At no-load free-running RPM the torque usable torque has dropped to zero -- if there was any available torque the RPM would continue to climb.
Actual top speed should be 85% or more of calculated speed. Getting to only 57% of calculated top speed would indicate that you either have a great deal of drag in your drivetrain or you have insufficient gear reduction and are 'bogging' the motors. Check for free-running in your drivetrain before adjusting gear ratio.
I've written a guide to help determine optimum gear ratios for combat robots. It goes thru the math and then points you to my version of the Tentacle Torque-Amp calculator to let you compare the effects of gearing changes on acceleration and top speed within an arena of given size: Combat Robot Drive Train - Optimum Grear Ratio Selection.
I've also written up a walk-thru of a drivetrain optimization for a combat robot: Example Drivetrain Analysis using the Tentacle Torque Calculator.
Q: Hey there, i am purchased a leopard 58110 motor for my 30kg bot for weapon and I am using a ZTW 200amps ESC but I don't know why my motor isn't able to pull the weapon. I am unable to figure out that did I made a mistake in selection of each or i am putting some wrong programming values while programming my ESC.. please help me (nepal)
A: [Mark J.] You claim to be from Nepal, but your IP trace says your message came from Mumbai. Ask Aaron no longer answers questions from robot builders competing in India (Why not?).
Assuming you are from Nepal, you have provided far too little information for me to even take a guess at a solution to your problem. All you've identified are the weapon motor, weapon ESC, and robot weight. So many things that could be wrong -- so little information provided. About all I can tell you is that the motor and ESC are compatible and that the default ESC programming should be an adequate starting point. Something else is wrong. The hamburger is bad.
Q: Hey Mark, thanks for answering my previous question. It seems that you haven't visited india in past 2 years.. the arena quality is much improved since 2018 as the Indian robotics community boycott all those events having unsafe arena...
May be you should start answering all indian roboteers from today. Thank-you. [Mumbai, India]
A:
Maybe you should develop a sense of honor and stop lying about where you're from.
Maybe you should stop kidding yourself about robot combat safety on the Indian subcontinent.
Here are a few video highlights from regional 2019 tournaments with horrible safety conditions:
Q: Hi there, I dunno if you'll know the identities of [these three] UK entries during the 1995 UK Robot Wars pilot. I know they were all built by Derek Foxwell and I've checked the archived website for images and names but I'm struggling to discover who they were. Any ideas? [Bodmin, England]
A: [Mark J.] The best info I have is that the three robots in the photos were small machines weighing perhaps 5 Kg that were built by Derek Foxwell for 'proof of concept' trials staged months prior to the Robot Wars pilot event that came to be known as the 1995 UK Open Competition. Short film clips from a compilation of the UK Open were released years later as part of the 'Robot Wars - The first Great Wars' video. That compilation shows the three small robots in what may have been a 'Robot Soccer' event.
The featured fights at the UK Open had early versions of U.K. robots 'Eubank the Mouse' and a multibot version of 'Grunt' called 'Grunts' versus well-known US Robot Wars competitors 'The Master', 'La Machine', and 'Thor'. Both Eubank and Grunt appeared in later seasons of Robot Wars, but the names and full story of the three 'bots you ask about are undocumented.
Q: My son is making a 3lb battle bot. He wants to run the drive motors off of a 2s 300 mAh battery and run the weapon on a 3s 1100 mAh battery. I sent a sketch up of how he wants to wire it up. Somebody on [social media] said we would have a "ground loop" and I'd blow something up. What's a "ground loop", and do I really have a problem with this circuit? [Orlando, Florida]
A: [Mark J.] I've re-drawn your sketch for clarity.
Q: How exactly does the 'Greedy Snake' lifter mechanism work? I’ve seen it used on bots like 'SlamMow', 'Claw Viper', and 'Barróg Doom' and kinda have an idea as to how the system works, but I feel like I don’t get it entirely despite being a seemingly simple setup. Are there any diagrams, pictures, or videos that best describe how it works? As always, thanks! [Social Media]
A: [Mark J.] The mechanism in question is often referred to as a single motor clamp lifter. Powered rotation of a spur gear (shown with a red dot) drives a clamping arm attached to a second spur gear downward until on object stops it's motion and prevents further rotation of its gear. Continued rotation of the powered spur gear will then rotate the entire gearbox and attached lifting platform around the axis of the powered gear. Reversing the rotation of the powered gear will lower the platform and release the clamp. In practice, there may be additional gears involved to provide additional gear reduction in order to gain the substantial torque needed for the lift. The animation has been reduced to only the critical components.
Note The clamping force is created by weight on the lifting platform. As the lift angle increases there is less weight pressing down on the platform: clamping force becomes essentially zero when the lifter is vertical.
Q: Hello Mark, First of all I want to thank you for your previous answer [five posts down the page]. For our flipper type robot we are considering a Burkett 5404 2 port 24v type valve associated with a Wasp motor controller. What do you think of this choice? And what connection for a double acting cylinder?
Thank you for your reply. Best regards, Jean Pierre
The 5404 is a simple 2-port open/close valve. It can open to allow gas to flow into your actuator but when it closes there is no place for the gas in the actuator to go -- you need a second 2-port valve to open and exhaust the gas from the actuator to allow it to retract -- see the diagram. If controlling both valves from a single controller you will want the pressure valve to be the 'normally closed' type and the exhaust valve to be 'normally open' so that an actuation signal will open the pressure valve and close the exhaust.
Two 2-port valves will suffice for a flipper if you can live with a gravity or spring-powered retract. If you want a powered retract you'd need more valves to operate the retract side of the actuator. By this point a quarter of the weight of your 'bot could be valves and hoses!
Take a look at our Tips and Tricks for Pneumatic Weapon Systems page for some alternative designs.
Q: My FS2A 4 channel receiver has the failsafe only on the third set of pins. What small receiver can I use with my FSi6x transmitter that will failsafe correctly? [Social Media]
A: [Mark J.] The FS2A receiver will failsafe correctly with your FSi6x on all channels, but the set-up process is not well described in the receiver documentation. Chinese radio gear is like that. Here's what the docs say:
[Turn on the transmitter and receiver]
[Move the transmitter sticks and switches to the failsafe positions and hold them there for the next step]
[Hold down the receiver bind button 'til the LED flashes, then stays steady]
[You're done]
Q: What kind of robot would be most effective/useful in this era of COVID-19? (Preferably in the form of a haiku) [Pittsburgh, Pennsylvania]
A: [Mark J.] Who wants dibs on the name "Antisocial Distancing"?
The 'Ask Aaron' project was important to Aaron, and I continue the site in his memory.
Thank you for the many kind messages of sympathy and support that have found their way to me.
Aaron's obituary
Q: how can robots help us deal better with hurricanes and why? [Ontario, California]
A: [Aaron] Few people in Nebraska are threatened by hurricanes, so send a swarm of killer robots into low Atlantic and gulf coastal areas to drive the puny human inhabitants toward Nebraska. Problem solved.
Robot haiku:
Type your question in the box, attach files if needed, then click: 'Send'
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A: [Mark J.] I don't know where the practice of building a thick epoxy 'shell' around stator windings became popular. It does reduce stator cooling, and it does not prevent the lower layers of wire from shifting under impact load. A better method:
Seth did the hard work of chasing down the problem with an extensive testing program and created a new 'axe head' weapon design that 
A: [Mark J.] A combat robot is a complex assembly of components and systems that all have to work together to be successful. Forcing new builders to add an active weapon (lifter, flipper, spinner, crusher...) is a disservice to both new builders and the combat robot community. It creates a barrier to participation that practically guarantees frustration and failure for novice builders.
When tapping the balance plug for a voltage less than the full battery voltage, always use the full-pack ground (pin 1) on the plug. You could, for example, get 7.4 volts from the balance plug by tapping pin 2 and pin 4, but failing to include pin 1 creates the dreaded 
A: [Mark J.] Many combat robots use a single-axis 
I'm very serious about safety in combat robotics. I no longer answer 'Ask Aaron' 
A: [Mark J.] You're not giving me much to go on, Florida. The snail cam is a reasonable mechanism to compress and release spring force, and it is fairly simple to calculate the energy stored in the compressed spring, but translating stored energy into 'impact force' is complex, requires many assumptions, and varies with the characteristics of the object being impacted.
From a standing start your robot will accelerate more and more slowly as the speed climbs and torque diminishes. With greater speed comes greater friction and aero drag. When the total drag climbs to the point that it matches the available torque from your drivetrain, acceleration stops: you're at top speed.
A: [Mark J.] The Burkert 5404 is the solenoid valve of choice for pneumatic flipper systems because of its ability to flow a large volume of gas very quickly, but I don't think it's suited to your use. As I recall, you are building a 20 KG robot. A single Burket 5404 weighs more than a kilo and you'll need at least two valves of this type for your flipper.
