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A clamp bot configuration
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Clamp bots use strategic designs and are intended to take control of the match by denying the opponent the ability to move Usually their only option to inflict damage is to take the opponent over the arena hazards
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Clamp bots work well against rams and wedges these types of robots completely depend on their drive power for weapons, and once grabbed and lifted are completely helpless Against a thwack bot, the challenge for a clamp bot will be in catching its opponent, because many thwack bots are very fast robots Like the ram and wedge, once caught, a thwack bot can be rendered helpless by a firmly grasping and lifting clamp bot Spinners, particularly the completely enclosed shell-type spinners, are a tough opponent for a clamp bot The spinner s weapon must be stopped before the clamp bot can grab it, but the only way the clamp bot has of stopping the shell is by repeatedly ramming it, taking punishing blows to the arm mechanism before the spinner is slow enough to be grabbed With more working parts and typically lighter frames, clamp bots are more likely than most robot types to be damaged by this kind of punishment A vertical spinner or drum type robot is an easier target, if the clamp bot can outmaneuver and grasp it without taking a hit
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Finally, care must be taken when grabbing hammer-wielding robots with a clamp bot, as a firm grasp can also give the hammer bot the leverage to repeatedly hit the clamp bot in the same spot When attacking a hammer bot with a clamp bot, try to approach from the side so as not to be in the path of the hammer arm
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Thwack Bots
Spaz, Blade Runner, and T-Rex are thwack bots Thwack bots feature a powerful, two-wheeled base, with a long-tail boom having an axe, pick, or hammer head on the end They are capable of spinning in place at high speed
Thwack Bot Design
Another design that uses only its drive motors for attack power, the thwack bot spins rapidly in place, whipping a weapon on a long tail about at high speed Thwack bots are invariably two wheeled, as four- or six-wheeled designs cannot spin in place rapidly enough to make for a satisfying impact Usually, this design with exposed wheels and a symmetrical profile allows them to run well when inverted, thus making them a difficult opponent for wedges or lifters Narrow wheels are key to a thwack bot because wide wheels will add scrub resistance and slow down the turning rate Care must be taken to balance the robot so that as much of the weight as possible is resting on the main drive wheels; any weight resting on the tail or on any idler wheels is potential traction going to waste The wheels should be soft rubber, high-traction types, and foam filled for survivability Placing the wheels close together increases the top speed but will increase the time it takes to reach that top speed Figure 10-6 shows a thwack bot schematic Typically, ratio of wheel size to wheel spacing is between 2:1 and 4:1 Thwack bots typically have high driving speeds so that the high wheel speed can be turned into a high spin rate The need for high wheel speed and spinning requirements can make this kind of robot hard to control The main design challenge with thwack bots is finding a balance between top speed and spin-up time Ideally, a thwack bot should be able to reach top rotation speed in less than a single revolution, yet still have a top speed fast enough to do damage on impact A thwack bot that takes too long to spin up will find itself helpless once an opponent has come within range to attack Of course, more power makes for faster spinning (thus, less time to get up to full spinning speed) and higher top speed, so a thwack bot should have as much power as possible The primary weakness of the thwack bot concept is that it cannot move while spinning This type of robot must either spin in place and hope its opponent drives into it, or charge to within spin radius and then spin getting less than a full revolution before striking its opponent Several attempts have been made to build a navigation system that allows a thwack bot to translate while spinning, by
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