Stopping a 300 Km/h Object: Is Airbraking Possible?

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Airbraking at high speeds, such as 300 km/h, presents significant challenges, primarily due to the diminishing effectiveness of airbrakes as speed decreases. Traditional airbrakes, like those used on trucks and aircraft, are not designed to bring an object to a complete stop within a short timeframe, such as 1.5 seconds. The discussion suggests that achieving such rapid deceleration would require forces exceeding 5.66g, which airbrakes alone cannot provide. Alternatives like retro-rockets may be necessary for effective stopping. Overall, the feasibility of using airbrakes for quick stops at high speeds is highly questionable.
Ronhrin
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let's assume that it's possible to maintain a object floating in the air, when we acelerate with the object there's basicly only one way to stop it, airbrakes.

let's assume that same object is traveling at a speed of 300 Km/h, is it possible to build a airbrake system able to fully stop the object in less than 1.5 seconds?
 
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Hmmmmm. That would be a new definition of airbrakes to me. Airbrakes are typically used on trucks. What you are describing would be thrusters if I am understanding your post correctly.
 
Gliders (and other aircraft) use airbrakes.
Quite effective at high speeds, but they loose effectiveness as the speed decreases.
So bringing something to a complete stop seems unlikely.

For your purposes a parachute might be considered an airbrake.
 
No, you won't bring it to a complete stop using air brakes. Look up the formula for aerodynamic drag, and you'll see why.
 
Ronhrin said:
let's assume that it's possible to maintain a object floating in the air, when we acelerate with the object there's basicly only one way to stop it, airbrakes.

let's assume that same object is traveling at a speed of 300 Km/h, is it possible to build a airbrake system able to fully stop the object in less than 1.5 seconds?

There's no way you'll be able to get an object to stop that fast (5.66g continuous for 1.5 seconds) using just an airbrake, for the reasons stated above (most importatly the loss of decelerating force with speed.) Maybe retro-rockets?
 

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