Ask Aaron: questions and answers about combat robots

Questions and Answers about Combat Robotics from Team Run Amok.

7936 Questions and Answers about Combat Robotics
from Team Run Amok

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.

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.

'Ask Aaron' is a simple little question and answer page. It is not Reddit. Messages not asking substantive combat robot questions will not be published.

Clamp Up!
Q: Hi Mark,
How do antweight big-wheeled vertical spinners like "Oathbringer" constrain the weapon shaft between their chassis halves? I would guess that the weapon shaft is hollow with wires threaded through (like on "SLAM PLAN") due to the chassis being too skinny to contain independent electrical systems, but I am uncertain as to how everything else is held together. [Zanesville, Ohio]
A: Mark J. Given that the weapon dead shaft on a HUGE-style big-wheel vertical spinner takes a great deal of stress and holds the entire 'bot together, the mounting of the shaft to the chassis halves is critical -- regardless of weight class. The preferred method is to clamp a good length of shaft in machined alloy blocks pulled tight by heavy machine screws. The blocks are in turn secured to the chassis at multiple points with screws. An example of such mounting in hobbyweight 'SLAM PLAN' and a typical clamp mount can be seen below:
Given the visible arrangement of screw heads near the weapon shaft junctions to the chassis I believe 'Oathbringer' has a similar clamping block system. I also suspect that there is plenty of room in 'Oathbringer' for a battery and receiver on each side -- they may well be using a solid weapon shaft. It's embarassing to have your robot snap in half because the shaft is too weak.

Orders of Magnitude
Q: As seen from a question you recently answered, India continues to receive negativity from the combat robot community for their still-abysmal safety practices. With the World Cup underway, I couldn't resist asking this. Do you think establishing an international governing body for robot combat with universal rules and standards (similar to FIFA in soccer) could help improve safety in the region? What do you think? [Daly City, California]
A: Mark J. FIFA is a major sports organizaition with ample financial influence to reward compliance with their rules and regulations. Their current tournament has a prize pool of a billion dollars. Huge numbers of fans spend time and considerable money to travel across the globe to their events, and countries vie to attract their favor.
Combat robotics is many orders of magnitude too small to support an international governing body. What "carrot" could it offer for compliance? What "stick" could there be to chastise violations? Why would a technology fair in India pay any attention to rules they could not afford to follow?

Beware of the Blob
Q: I am making a chassis for a beetleweight robot out of hdpe [High Density Polyethylene] and I want it to be a unibody so assembly would be a bit easier. But I don't have a milling machine, so I thought that molding would be a better solution. I was wondering if making it this way would be less durable. Thank you. [Montmagny, Quebec]
A: Mark J. When you warm up HDPE to molding temperature it does not become a pourable liquid like parafin wax -- it becomes a viscous semi-solid glob that must be pressed into the mold while still very hot. Getting this gummy mass to fill the corners and edges of a mold as small and complex as a beetleweight robot chassis would very likely leave you with voids and poorly adhered folds that would compromise both the strength and functionality of the finished product.
Plastic Smithing: How to Make Your Own HDPE Plastic Anything
Plastic insect-class robot chassis are exactly what 3D printing technology is good at doing, which is why you see so many printed chassis and few if any molded beetle chassis. Cannot recommend.

Flashback ➤ Archived post from 2020

There are features available on your transmitter that will make your robot respond better to the commands you give and make you more comfortable at the controls. Chances are that you're overlooking at least a couple tweeks that could make you a better driver. Let's see how much you know about transmitter functions.

Which common low-speed robot control problem can be corrected by appropriate use of the 'Subtrim' transmitter function?
If you use the 'Mode' function to switch your transmitter from the US standard 'Mode 2' to the European standard 'Mode 1' stick assignments, what will happen to your EleVon mix rotation (steering) stick assignment?
Which specific transmitter features are needed to program a switch that will correct stick commands when your robot is flipped over? Can the FlySky FS-i6 do this?
What is the effect of adding positive exponential response to the rotation (steering) channel on your transmitter?
The servo powering your antweight lifter has a little less range of motion than you planned for when you designed the mechanism. Which transmitter functions can help with this problem?
Click here for answers

Respect for Arthur Miller
Q: I asked my tech-savy nephew about where to get advice for building a robot to win a court case, and he recommended this website. So let's cut to the chase. I'm suing Andy Serkis for $5,441,996 on the count of ruining a classic piece of literature and wasting everyone's time. I will not be in court myself on the count of taking a 5 month long cruise to clear my mind after watching a CG pig shake his massive rear end at the camera. I will need to build a robot to take my place in court. My brother gets an employee discount at Home Depot, so that is where I’ll be getting the supplies for the robot. I need to get it built before Memorial Day. Please send me your advice.
-Greg [West of San Antonio ✪]
A: Mark J. It's about time somebody went after Andy Serkis. I don't know what compelled him to accept the role of Willy Loman in that off-Broadway production of "Death of a Salesman" but he certainly made a mess of it. For some reason he kept calling Willy's wife "precious". A travesty.
The robot is no problem:

Buy a step ladder, two belt sanders, an extension cord, and a big roll of Velcro from the Home Depot.
Bolt the belt sanders to the bottoms of two legs of the step ladder, plug them into the extension cord, and strap your iPad to the fourth rung with the Velcro.
Boot up Chat GPT on the iPad and enter a bunch of legal stuff plus the defendant's name.
Have your legal aid cart the contraption into court and plug in the extension cord.
When your case is called, have the aid tap "text to speech" on the iPad and switch on both belt sanders.

Say 'hi' to your nephew for me, Greg. Enjoy your cruise.
Reply: It's Greg, again. It has been 10 days since my initial post, and here’s how it went. Andy Serkis never showed up in court. Craig, my nephew, took a break from his baseball career in Wisconsin to film the court case for his YouTube channel that doesn't exist yet. He said that posting a video of a professional movie actor in court would make him an overnight celebrity. He called me on Tuesday night and told me the news. I feel much better now that I'm on my cruise, so I guess there’s no hard feelings towards Andy Serkis anymore. Thanks for the help!
Comment: Glad to hear you got closure on the whole Andy Serkis thing. Is Craig still playing for the Fond du Lac Dock Spiders? I heard a rumor he was being traded.
The idiom "jumping the shark", or "shark jumping", or to "jump the shark"; means that a creative work or entity has evolved and reached a point in which it has exhausted its core intent and is introducing new ideas that are discordant with or an extreme exaggeration (caricature) of its original theme or purpose.
- Wikipedia: Jumping the Shark

Too Fast for Cycloidal

Q: I'm looking at using a 3800kv brushless motor (the ones used in Just Cuz Robotics' Blitz Lite gearmotors) at 4S to power a beetleweight lifter/low-powered flipper. I've figured out a good balance of speed and torque at ~287rpm, but getting down to that speed requires around a 196:1 reduction from the bare motor. Would a 2-stage cycloidal drive be feasible, or am I better off just running the full gearmotor with some external reduction? The torque efficiency and compactness sound great in theory, but I don't know how durable it would be in combat, and the fact that there are no robots I know of that use it is worrying. [South of Los Angeles]
A: Mark J. You are well advised to be worried. NASA-quality machined cycloidal drives have very high efficiency, but miniature 3D printed versions do not. You would be lucky to get 70% efficiency per stage, which means that in a two-stage drive about half the input power would turn into heat.
Cycloidal drives are also not well suited to high input speeds, and you're looking to feed one better than 50K RPM. I foresee a very short lifespan for your proposed drive. If you want to use a high Kv motor, stick with conventional gears.

Not For the Motor

Q: I've killed a couple of weapon motors (belt-drive 4S 2836 1500Kv) on my beetle. Both completely failed with a puff of smoke on after big hits. The stator windings were discolored and burned thru in a couple of places. Should I be using a capacitor across the ESC power leads to keep this from happening? [Social Media]
A: Mark J. It's common to use an electrolytic capacitor soldered between the power input leads on the weapon ESC if running greater than 4S voltage to protect the ESC - not the motor. The capacitor (around 1000 uF rated for voltage at least 150% of your battery) smooths out voltage spikes that can fry vulnerable ESC components but the motor is MUCH less sensitive to voltage spikes.
Shock loading and heat are the things that kill stators. If you're spinning a big beater bar the aerodynamic loading may be too great for a 2836 -- consider a larger motor. Also think about epoxy coating the stator windings (photo) to improve cooling and prevent wire shifting.

The Channels are Not Swapped
Q: My bot is turning side to side when I hold forward and backwards and it goes back and forth when I try to turn, so basically channel 1 and 2 are swapped. I cannot do anything with the receiver because it is an all-in-one Catalyst brushless receiver/ESC. [Social Media]
A: Mark J. This can be fixed in the transmitter or by a hardware adjustment. Since you have not mentioned what transmitter you're using I'll give you the hardware fix:

Identify the motor that backs up when you command forward motion. If the robot spins to the left it is the left motor -- if the robot spins to the right it is the right motor.
De-solder two of the three leads from that motor where they connect to the pads on the Catalyst Dual Brushless ESC with Integrated Radio. Any two will do, but remember where each was attached.
Swap the positions of those two leads and solder them back onto the motor output pads of the Catalyst.

If you'd rather not do any soldering, tell me more about your transmitter.
Reply: It's not that the motors are running in reverse, it's that CH1 and CH2 are swapped and I can only change it via the transmitter.
Response: That's incorrect. If your 'bot spins in place when you try to go forward or reverse one of the motors is responding in reverse -- and that problem CAN be resolved by swapping motor leads as described above.
If you prefer a transmitter settings solution, you can use the "reverse" function to invert the output from the Catalyst port controlling the motor that is responding incorrectly. I believe the Catalyst assigns the left and right side motors to Ch1 and Ch2 respectively.
You are still not telling me what transmitter you have. Why is it a secret? If you are using the popular FS-i6 transmitter my FlySky FS-i6 Combat Guide gives full instructions on use of the reverse function.
For general help troubleshooting mixing problems see the Team Run Amok Combat Robot Mixer Fixer.

Flashback ➤ Archived post from 2017

Don't Actually Lick It!
Q: I'd like to find the actual speed of my spinner weapon but I have no measuring tools and no budget. Are there any oddball tricks? [Facebook]
A: Mark J. A few, but I can't vouch for any of them...

The eyeball test [Paul Gancitano] -- download one of many free stroboscope apps to your phone and put a daub of white paint on the side of the weapon tip. Spin up in a darkened room and find the fastest strobe speed that 'freezes' the white spot in place. Result may be revolutions per second (Hz) or direct RPM depending on the app. Note: I can't find a working app that is fast enough for our purpose.
The earball test [Derek Reihe] -- put the edge of a playing card in the path of the tooth and match the tone it makes to a known source (frequency generator app). Matching the tone (Hz) gives revolutions per second. Divide by two if two teeth hit the card on each revolution.
The tongue test [Anonymous] -- spin it up, spin it down, then quickly lick it to see what it tastes like:

Olives
Cheese
Oranges
Salt
Egg Salad
Beer
Dirt
Blood -
-
-
-
-
-
-
- 2k RPM
4k RPM
6k RPM
8k RPM
10k RPM
12k RPM
14k RPM
Let it spin down some more.

If you really want to know how fast your weapon spins you can buy a digital laser tachometer online for less than $20.

Do I Have to Read it All?
Q: Am I really supposed to read through the 7928 questions and answers on Ask Aaron to learn how to build a combat robot? The RioBots Combat Guide is seventeen years old, 367 pages long, and badly needs another update. Isn't there a concise instructional guide that's been written in this decade that can tell me how to build a beetleweight robot? [Social Media]
A: Mark J. Ask Aaron was never intended as a course in combat robotics. It's a source to turn to if you're stumped on some specific problem, seek clarification on design theory, or just browse for your own entertainment. The RioBots guide is a great engineering resource even given its age, but it also is not a beginner's course. If you want a recent guide that covers building a beetle from the ground up I've got just what you're looking for.
Leo Ping, captain of the University of Toronto Robotics Association Combat Robotics team, has published a free download "Beetleweights for Dummies -- The Ultimate Guide to Building your Own 3lb Death Machine" -- 135 pages, written in the Fall of 2025. It's been widely distributed on the NHRL discord. Like the RioBots guide, I don't agree with everything presented therein (e.g. the section on weapon 'bite' is misleading) but in general the material is quite good and covers all the bases.

That's Not Bind Mode
Q: I'm building an antweight and having trouble with the Malenki Nano receiver/ESC. It has been working well but has now started going into binding mode whenever I turn it on, even though I don't wait the 90 seconds before powering up my transmitter. If I restart my transmitter in bind mode the FS-i6 displays "RXBinding" but the blue light on the Malenki keeps flickering. Any idea what's wrong? [Social Media]
A: Mark J. Malenkis have some quirks that can trip up the unwary. One simple rule will avoid most of the trouble:
Turn on your transmitter BEFORE you power up your robot!

Powering up your Malenki with your transmitter off and waiting ~90 seconds will drop it into Bind Mode with a blue light flashing about 4 times a second at a 50% duty cycle; but...
Powering up your Malenki with your transmitter off and waiting just a few seconds before turning the transmitter on will drop the Malenki into Configuration Mode with a rapid blue light flicker at a 90% duty cycle.
Because you describe the blue light as 'flickering' I suspect that you are activating 'configuration mode' by powering up your robot before turning on the transmitter -- not bind mode. Turn everything off, turn on the transmitter and then power up the robot.
Malenki designer Mark Robson writes in with a note on config mode:
"Super well done, that's exactly right. It does have a config mode as well as a bind mode. Config mode is super easy to exit, just drive the robot (forward or reverse) and it immediately goes into drive mode."

It Looks Safer Now...
Q: India’s reputation for un-safe robot competitions has left a very uncomfortable reputation in the community but I and many others feel it is no longer acceptable to label such a large country, especially given the hard work that has been done to improve safety.
There has been both a push for safer events and more robotiers have gone away from street wars, flimsy cages, and unregulated combat. IIT Bombay Robowars has created a much better space with a fully enclosed arena and better safety regulations so much so that robots from other countries have started competing at their events.
The fact most Indian teams refuse to compete at unsafe events is also a preeminent sign of how supportive of safety they are now. Do you think you could back away from your negative comments on Indian robot combat safety? [Social Media]
A: Mark J. Tournaments in India are looking better, but appearances can be deceiving. Here is a video clip from the I.Fest tournament in Gajarat, India on the 15th of November, 2025.

Arenas that LOOK safe are not always arenas that ARE safe. That 10mm thick "polycarbonate" (was it?) panel shattered, a robot with an active spinner weapon plunged into the audience, and multiple people were injured. My policy on robots competing in India remains in place.

Favorite Names
Q: Do you have any favorite robot names? 2 of my favorites are DDT (Jamison's deadly antweight named after the infamous insecticide - very fitting) and Rickety Cricket (the beetleweight gyro-walker named after an IASIP character).
Also, thank you wholeheartedly for maintaining this website. It's a wonderful community resource and obvious labor of love. It reminds me of the more personal, and expressive "old internet" that I don't see enough anymore. [Ontario, Canada]
A: Mark J. I don't keep an updated list, but Aaron gave these five bot names as his favorites in an archived post from 2009:

Delicious Monkey (Beetle - daVinci Days, 2004)
Electric Lettuce (Kilobot - Kilobots VII, 2005)
Evelyn a Modified Dawg (Heavyweight - long career in early 2000s)
Prussian Pitchfork of Pain (Hobbyweight - Motorama 2006)
Wack-a-Tron (Super Heavy - BattleBots 3.0)

Thank you for the props! Many builders were generous with their time and knowledge when we struggled to get our start in combat robotics. Paying it forward as personally as I am able.

I've Got a Calculator for That
Q: Hey there,
Im redesign a robot I posted on here in 2024, mainly the weapon system. Im wondering how bad the gyroscopic effects would be between these two designs
Both have the same diameter of 127mm, with the disk being around 78.5 grams and the bar being around 36.7 grams [Wake Forest, North Carolina]

A: Mark J. The amount of gyro reaction your robot will get when turning is dependent on drive train width, robot speed, robot mass, weapon speed, and the weapon mass moment of inertia (MoI). If your CAD program can provide the weapon MoI, I just happen to have a calulator that will give you a full answer to your question:
The T.i. Combat Robotics website was home to a number of useful combat robot design discussions and tools. When their website went dark in October of 2015, Team Run Amok gained permission to grab an archive copy of their 'Designing Around the Gyroscopic Effect' page for safe keeping here at RunAmok.tech. 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.
Total Insanity Gyroscopic Effect Calculator

Both Ways at Once?
Q: I was playing around with the idea of splitting a single large vertical spinner into two smaller ones, and running them opposite to each other - with the point being to possibly shear materials by applying conflicting forces. Is this sound, or would it likely just blow two motors? [Los Angeles, California]
A: Mark J. Things would need to go 'just right' for your planned weapon to do more damage to your opponent than to itself:

If you fail to approach your opponent squarely: only one spinner will be in position to strike. If that happens to be the 'downward' spinning weapon the reaction will throw your own 'bot skyward.
If you do manage to approach squarely: the chance that the impactors on the two spinners will strike simultaneously to give you any shearing action is practically nill. In most circumstances one half-power impactor will tap the robots apart, or toss either your 'bot or theirs upward.
A more practical approach is to secure your robot against upward impact reaction and only then apply a downward impact to your opponent. Sliding forks or a 'dustpan' style tray under your opponent as you approach will allow a downward vert to impart full destructive force without vertical separation. Remember your Newtonian physics -- your weapon and mounts must be strong enough to absorb the "equal and opposite" force from such an impact.
Take a look at this archived post for more on counter-rotating vert spinners.

Quite Expensive
Q: Help me make a 30 pound arena i want to know what you look upto with design help and suggestions which i must follow while building one. Size would be 16x16 ft [A Mobile Provider in India]
A: Mark J. From the wording of your request I assume that you wrote this for some AI service but did not like the answer you received. I dropped it into ChatGPT and got a jumbled mix of useful information and contradictory mush. A quick search of the Ask Aaron Archives for build a safe robot combat arena would have saved both of us time and frustration.
See the Ask Aaron Frequently Asked Questions #38 for resources, plans, and guidance on building safe robot combat arenas for various weight classes. A proper arena of the size and capacity you specified will be quite expensive.

As best I can tell, no one from India has ever read the FAQ or searched the Archives prior to asking a question. This is a major frustration for me.

Horses for Courses
Q: I'm thinking about buying a BotKits D2 beetleweight kit but I don't know whether to get the wedge or the forks for my weapon. Which works better? [Social Media]

A: Mark J. The wedge and forks are both good, but in different situations:

The big titanium wedge/plow is effective against vertical disks and horizontal spinners, but is vulnerable to eggbeaters and drums. It's also only so-so versus other wedges.
The tool steel Wolverine forks counter the annoying beaters and drums quite well and offer better results against wedges, but are largely useless against horizontals and vert disks.
It's best to have both and swap in the appropriate counter to your opponent for each match. If you only get one, the wedge is the better choice.

Flashback ➤ Archived post from 2020

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:

Some manufacturers classify their brushless outrunners by the diameter and length of the motor can and base. A '2205' motor under this system would be 22 millimeters in diameter and only 5 millimeters long. No, nobody makes a hobby motor that size.
Other manufacturers - particularly of quadcopter motors - classify their brushless outrunners by the diameter and length of only the motor stator; the wire-wound source of the electromagnetic force that drives the motor.
A '2205' quad motor like the pictured 'Emax RS2205-2300' would be a '2817' if classified by its can dimensions.

Tournament Trees
Q: Can I ask which software you used to create the brackets on the "Who Won" pages? [iCloud in England]
A: Mark J. It's largely a manual process:

I start with an Excel template;
Fill in the names and grab screen captures from a 'Print Preview' to clear the background;
Drop the captures into a thirty-year-old graphics program (Paint Shop Pro v.4.12) to stitch together and crop out excess white space;
Add background color and clarifying graphics.

Alternating Violence
Q: For my combat robot (with the FS-i6x transmitter and receiver), the robot can move smoothly forward (with a little bit of veering) and turn to the right and left. However, when going backwards it keep alternating between violently turning left or right in a circle. Is this a mechanical imbalance or software issue? And how can I program the transmitter to fix it so it travels backwards more smoothly? [West End of the Holland Tunnel]
A: Mark J. You've told me nothing about your robot, but let me guess: two wheels set WAY at the back of the chassis and something heavy up in the front. That layout gives very little weight on the drive wheels, and little weight means little traction. When backing, any irregularity in the arena surface will shift what little traction you have to one or the other wheel and cause an unexpected turning motion. Lateral weight transfer caused by the turn locks you in and spins you around. Your problem is entirely mechanical - no transmitter adjustment will help. A two-wheel drive 'bot should have about 2/3rds of the total weight on the wheels for best pushing power, agile response, and good tracking.
Short of redesigning your bot, you can examine the parts in the front of the 'bot that slide along the floor. Polish those contact points smooth and tweak the chassis as needed to assure left and right sides touch with equal weight. If you have the option to move the drive motors forward or shift heavy components rearward you may get some improvement -- but this design error is something best handled when first laying out your component placement.
Take a look at this post from the design archive in early 2025:
Q: You've said that a two wheeled robot should have 65% of the weight on the drive wheels. My CAD program gives me the location of the center of mass but where do I place the mass center to put the right amount of weight on the wheels? [West Sacramento, California]
A: Mark J. For best traction you want as much weight on the drive wheels as possible, but leaving too little weight on the front of your 'bot will allow it lift up off the arena floor under acceleration and make it vulnerable to attack. Designing for 65% of the robot weight on the drive wheels gives good traction and leaves enough front weight in most cases.

To place 65% of the weight on the rear wheels:

Measure the distance from the weight-bearing point of contact at the front of the robot back to the axles of the drive motors;
Move components as needed to place the mass center at a point 65% of the way rearward along that measured line -- see illustration above.

Note 1 - Robots with unusual layouts or odd dimensions may require different axle weights. Page 46 of the RioBotz Combat Tutorial has a discussion on calculating optimum placement of the center of mass based on traction and the height of the mass center.
Note 2 - Magnet downforce may be used to correct traction and lift problems in a steel-floored arena. Combined gravity and magnetic weight of 65% on the drive wheels will still be a good starting point.

Overkill But Undervolted
Q: Hey there,
Im trying to choose the right brushless motors for the drivetrain of my 30kg combat robot (Its a drum spinner). Im wondering if the "6354 190kv Belt Motor BLDC Motor for On-road and Off-road Electric Skateboard and Robot" would be a good fit for my two wheel drive? our wheels diameter is 25cm (9.843 inches i believe) and the voltage input is 22.2v (Will be using a 6s Lipo batter)
if i need to provide more information then please tell me! Hope this isnt a case of a bad hamburger
Thanks [Amman, Jordan]
A: Mark J. From the Ask Aaron Brushless Motor Selection Guide:
Rule of Thumb - There's a framework for brushless motor selection circulating out on the builder forums that appears to work well for drive motors. The method says that a set of brushless drive motors together weighing between 2% and 3% of the total weight of the robot will have more than enough power and adequate 'thermal mass' to survive.
By that framework your 30,000 gram robot would do well with a pair of drive motors with a combined weight between 600 and 900 grams.
I'm unable to find an exact websearch match for a specific "6354 190kv Belt Motor BLDC Motor for On-road and Off-road Electric Skateboard and Robot", but a pair of generic 6354 motors like the "Flipsky 6354 BLDC Offroad Electric Skateboard Brushless Outrunner" weigh in at better than 1100 grams and require 10s voltage to perform up to their specifications. As power is proportional to the square of voltage, on 6s these motors would have only 0.6 × 0.6 = 36% of the 10s power. Too heavy and too little power.
Something more like the HobbyStar 4120 (5055) 710 Kv Brushless Outrunner would be close to the low end of the suggested mass range and would produce full power on 6s voltage. Gearing depends on arena size, but a 45:1 reduction (with those 25cm wheels -- why so big?) would give good performance in an 8 meter wide arena.
Q: Hey, person with the 30kg drum spinner again. Thanks for the hobbystar motor recommendation. Unforunately, i think these are hard to find in my country. I have a few questions though.

First of all, if i were to change my input voltage to, lets say, a 10s Li-ion batteries, would the Flipsky 6354 BLDC Offroad Electric Skateboard Brushless Outrunner motor work?
Second of all, i found a KingVal Replacement 5065 435KV Brushless Motor on amazon, which weighs 476 grams (making the combined weight around 950 grams) would this give me good performance with an increased reduction ratio?

A: It is unusual and limiting to decide on battery voltage before picking drive motors -- I'm glad to hear you're willing to consider alternatives. Let's take a look at the proposed drive motors with the Team Tentacle Drivetrain Calculator: Brushless Version:

A pair of the FlipSky 6354 motors on 10s will do nicely, although use of your large wheels still require a substantial reduction ratio. Assuming an 8-meter arena and a 16:1 reduction, they will propel your 'bot to 12 MPH in 1.2 seconds at a distance of 16 feet and will produce full pushing power while consuming only 20 amps per motor.
You can obtain similar performance from the KingVal 5065 motor on 6s voltage, but it will require greater gear reduction. With 24:1 reduction they will provide about 11 MPH in 1.3 seconds over a distance of 16 feet. Full pushing power will require 32 amps per motor.

Plant Filament
Q: Is there a benefit to using PETG over PLA+/Pro for Plastic Ants? [Rocklin, California]
A: Mark J. The short answer is "no". PETG is heavier for equivalent strength, more difficult to print, and no tougher than a good quality PLA+. Avoid.
Be sure to check tournament rules for the specific filament types they allow.

No Steering Wheel
Q: drive train [Madhya Pradesh, Bharat]
A: Mark J. I've never actually tried, but it shouldn't be very hard. You can only go where the rails go, so just give it a little throttle and toot the whistle once in a while.

They Don't Get It
Q: What do your combat robots think of the current COVID-19 pandemic? [Kansas City, Missouri]
A: Mark J. My robots don't care. My robots don't spread, suffer from, or die from Covid-19 -- but you can. Don't be selfish. Follow the science. Stay safe.

Remembering Aaron Joerger, 1991 - 2013

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
- Mark Joerger

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:
That's obviously
A question from your homework.
Do your own research.

Aaron's Greatest Hits! More of Aaron's Poems Aaron at Nickelodeon Robot Wars Aaron's Minecraft High Dive Video Aaron's World of Warcraft Player Guide

We welcome combat robot questions. Please search the Ask Aaron Archives first to see if we've already answered your question. Recent Q&A are posted above.

Type your question into the box.
Click 'Choose Files' to attach - if needed.
Click 'Send'.

Why is there a 'Cheerleader' button?

Thousands more robot combat questions and answers in the searchable Ask Aaron archives.

Copyright 2009, 2026 by Mark Joerger
All rights reserved.

how to design and build a battlebot