Difference between revisions of "Shields"

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Even though many defensive shield technologies rely on exotic physics, any analysis of defensive shielding technology should take into account real-life physics as much as possible.
Even though many defensive shield technologies rely on exotic physics, any analysis of defensive shielding technology should take into account real-life physics as much as possible.


For instance: a shield should obey Conservation of Momentum. If a shield stops an incoming projectile, its momentum must be transfered to the shield system. If the momentum is greater than what the physical shield system (or its bracings) can withstand, then the equipment may suffer physical damage.
; Conservation of Momentum
: A shield should obey Conservation of Momentum. If a shield stops an incoming projectile, its momentum must be transferred to the shield system. If the momentum is greater than what the physical shield system (or its bracings) can withstand, then the equipment may suffer physical damage.
 
; Conservation of Energy
: Any energy a shield draws or absorbs must go somewhere, typically (but not always) as waste heat. Many sci-fi defensive shields redirect incoming attacks and glow at the impact point when the energy from the attack is radiated away.


== Defensive Shields in Different Universes ==
== Defensive Shields in Different Universes ==

Revision as of 16:25, 15 January 2008

Many science-fiction universes depict exotic defensive shielding technology protecting their vessels from enemy attacks. The different depictions of defensive shielding have varying levels of realism.

For more information, please see the main articles for how the shields of each universe behave:

Concept

Even though many defensive shield technologies rely on exotic physics, any analysis of defensive shielding technology should take into account real-life physics as much as possible.

Conservation of Momentum
A shield should obey Conservation of Momentum. If a shield stops an incoming projectile, its momentum must be transferred to the shield system. If the momentum is greater than what the physical shield system (or its bracings) can withstand, then the equipment may suffer physical damage.
Conservation of Energy
Any energy a shield draws or absorbs must go somewhere, typically (but not always) as waste heat. Many sci-fi defensive shields redirect incoming attacks and glow at the impact point when the energy from the attack is radiated away.

Defensive Shields in Different Universes

Star Wars Shields

Most starships in Star Wars use deflector shield technology to protect against enemy attacks and navigational hazards. Any incoming attacks that cannot be completely deflected are absorbed and stored in heat sinks. The shields can become overloaded if the system absorbs heat more quickly than it can be radiated away. The shield system must be shut down while the systems cool off, or the projectors will burn out and must be replaced.

Some starships can make use of the energy absorbed from incoming attacks, at least to a certain extent.

Please see the main article on Star Wars shielding for more information.

Star Trek Shields

Shields flare when struck by phaser fire.

Most starships in Star Trek use shields to protect against enemy attacks. As the shields take damage, they become weakened and effects from enemy attacks bleed through with greater frequency.

Please see the main article on Star Trek shielding for more information.