The maximum distance a wire can transmit a signal without significant loss in range is typically around 100 meters.
The maximum distance electricity can be efficiently transmitted is around 300-400 miles (500-600 km) without significant losses. This is because energy losses increase with distance due to resistance in the transmission lines. To transmit electricity further, high-voltage direct current (HVDC) technology is used with additional infrastructure like converter stations to minimize losses over long distances.
The maximum distance a molecule can be moved from its normal position by a wave is equal to the amplitude of the wave. This distance is typically small for light waves (such as electromagnetic waves) but can be more significant for mechanical waves like sound waves or water waves.
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I think the maximum distance is 1000,000,000,000 feet
The maximum acceleration in gs that a human body can withstand before experiencing physical discomfort is typically around 5 gs.
In a game of Magic: The Gathering, a player can have a maximum converted mana cost of 7 in their hand before experiencing overload.
The maximum torque a shaft can transmit depends on the material, diameter, and length of the shaft as well as the operating conditions such as speed and applied load. To determine the maximum torque, you would need to perform a detailed mechanical analysis or consult engineering specifications for the specific shaft in question.
Approximately the distance between this answer and your question.
The suggested maximum distance for this phone is eighty feet, though reception fades as distance increases.
The maximum distance you can walk in 20 minutes from this location is about one mile.
The maximum distance that matter is displaced from its resting place is its amplitude. In the context of a wave, it represents the maximum displacement from equilibrium.
The distance from a rest point of a wave to its maximum displacement is called the amplitude. It represents the maximum distance that a particle in the medium moves from its equilibrium position when the wave passes through.