Welcome to a world governed by strict physical laws.
In this precise 2D grid, you cannot directly control any object. Your only action is to change the direction of the "Field"—letting the rules themselves drive everything in motion. There is no randomness here; only pure deduction, spatial planning, and the puzzle-solving thrill born of chain reactions.
Every choice you make each turn applies a global effect to the entire system.
Electric Field: Once activated, all charged conductors begin to move. Positive charges move along the field's direction, while negative charges move in the exact opposite direction. You must simultaneously map out the paths for both types of particles within complex structures, making them cooperate, collide, or intercept.
Force Field: When facing a deadlock, switch to the Force Field. All movable objects will be pushed uniformly, regardless of their charge status.
Alternating between the Electric and Force fields is the key to breaking stalemates and unraveling complex scenarios.
Charges must always attach to conductors and are transferred through contact. When a charged conductor is pushed by a field and contacts a neutral conductor:
The charge will transfer to the new conductor and continue moving forward.
The original conductor loses its charge and remains in place.
By utilizing this mechanism, you can deliberately build blocking paths, extend or sever transmission chains, and continuously rewrite the spatial structure of the level amidst dynamic changes.
Every element in the level alters how the rules apply.
Field Shielding: Shielding objects can block the directional propagation of the electric field, creating a "field-free zone" behind them. Strategically utilizing these blind spots is crucial for protecting or restricting particles.
Selective Blocking: Certain structures only block physical object movement but allow charge transfer to pass through. You can use this to achieve special "through-wall conduction" paths.
Special Terrains: Different terrains will instantly alter the system's state.
Polarizing Terrain: Reverses the charge's polarity.
Absorbing Terrain: Forcibly halts charged objects.
Devouring Terrain: Permanently removes both the object and its charge.
These mechanics will constantly shatter existing structures, forcing you to continuously shift your puzzle-solving mindset.
Absolute Determinism: All behaviors are strictly dictated by the rules. Opposite charges neutralize and disappear upon meeting, while unidirectional movement creates deterministic blocking and chasing dynamics. There are no random outcomes; every single step can be precisely deduced and anticipated.
Open-Ended Solutions: Levels only define the goal, never restricting the path. Whether the objective is to deliver a specific charge to a target coordinate or to balance the global charge count to a certain state, you can achieve it through any logical means.
The Ultimate Challenge: Amidst ever-changing structures, can you exhaust all possibilities in your mind and discover the optimal path to break the puzzle?
Welcome to a world governed by strict physical laws.
In this precise 2D grid, you cannot directly control any object. Your only action is to change the direction of the "Field"—letting the rules themselves drive everything in motion. There is no randomness here; only pure deduction, spatial planning, and the puzzle-solving thrill born of chain reactions.
Every choice you make each turn applies a global effect to the entire system.
Electric Field: Once activated, all charged conductors begin to move. Positive charges move along the field's direction, while negative charges move in the exact opposite direction. You must simultaneously map out the paths for both types of particles within complex structures, making them cooperate, collide, or intercept.
Force Field: When facing a deadlock, switch to the Force Field. All movable objects will be pushed uniformly, regardless of their charge status.
Alternating between the Electric and Force fields is the key to breaking stalemates and unraveling complex scenarios.
Charges must always attach to conductors and are transferred through contact. When a charged conductor is pushed by a field and contacts a neutral conductor:
The charge will transfer to the new conductor and continue moving forward.
The original conductor loses its charge and remains in place.
By utilizing this mechanism, you can deliberately build blocking paths, extend or sever transmission chains, and continuously rewrite the spatial structure of the level amidst dynamic changes.
Every element in the level alters how the rules apply.
Field Shielding: Shielding objects can block the directional propagation of the electric field, creating a "field-free zone" behind them. Strategically utilizing these blind spots is crucial for protecting or restricting particles.
Selective Blocking: Certain structures only block physical object movement but allow charge transfer to pass through. You can use this to achieve special "through-wall conduction" paths.
Special Terrains: Different terrains will instantly alter the system's state.
Polarizing Terrain: Reverses the charge's polarity.
Absorbing Terrain: Forcibly halts charged objects.
Devouring Terrain: Permanently removes both the object and its charge.
These mechanics will constantly shatter existing structures, forcing you to continuously shift your puzzle-solving mindset.
Absolute Determinism: All behaviors are strictly dictated by the rules. Opposite charges neutralize and disappear upon meeting, while unidirectional movement creates deterministic blocking and chasing dynamics. There are no random outcomes; every single step can be precisely deduced and anticipated.
Open-Ended Solutions: Levels only define the goal, never restricting the path. Whether the objective is to deliver a specific charge to a target coordinate or to balance the global charge count to a certain state, you can achieve it through any logical means.
The Ultimate Challenge: Amidst ever-changing structures, can you exhaust all possibilities in your mind and discover the optimal path to break the puzzle?
