Creating an Energy Shield for Cars: Innovative Safety Technology

In summary, the conversation discusses the possibility of creating an energy for cars by using electron emitters or sound wave emitters, but it is determined that these methods would not be effective due to mutual repulsion or squishing of compressed air. The idea of using strong balloons or magnets is also mentioned, but it is noted that they would have to be extremely strong and could potentially interfere with steel components in the car. Another suggestion is to use reactive armor, although it is pointed out that this would not be suitable for collisions. The conversation then shifts to the idea of using a "proactive reactive" protection system that would activate upon sensing a collision and extend something (such as air, foam, or an extending bumper) to absorb the impact.
  • #1
Electro KOH
Is it possible to create an energy for cars by having some kind of electron emitters built around the car or sound wave emitters to create a layer of dense airwave around the car to cushion any impacts to the car in an accident?
 
Physics news on Phys.org
  • #2
Solid materials are strong because they contain a very high density of electrons and protons. It's the forces between them that keeps their shape. You could not put enough electrons around the car to do what you propose. They would all mutually repel, for a start. Even compressed air would just squish out if the pressure got high enough. You could use very strong balloons - boats use inflated fenders with thick envelopes. Not as flashy as your idea. ;-)
 
  • #3
That would work. The 2017 GM Zodiac!
 
  • #4
The best you could probably do is strong magnets, but they would have to be reaaaaly strong and would mess with anything ferromagnetic (steel) in the car.
 
  • Like
Likes sophiecentaur
  • #5
You can do reactive armor. But the use case for reactive armor is not what one would usually characterize as a "collision".
 
  • Like
Likes russ_watters
  • #6
So, if I could spray something that would turn to semi-solid state or jelly like texture when charged by electrons surrounding the car, will it work?
Of-cos, this spraying substance has to be none permanent and only turn on the spray when a collision is imminent.
 
  • #7
jbriggs444 said:
You can do reactive armor. But the use case for reactive armor is not what one would usually characterize as a "collision".

Well, you could instead do a "proactive reactive" protection, i.e. upon sensing an incoming collision, the car could send out something (air, foam, whatever) that would enable it to decelerate over a greater distance.
 
  • #8
rumborak said:
Well, you could instead do a "proactive reactive" protection, i.e. upon sensing an incoming collision, the car could send out something (air, foam, whatever) that would enable it to decelerate over a greater distance.
Sounds like an effective theft prevention system. Or anti-personnel weapon.
 
  • #9
I think those adjectives already apply to a car in motion, so ... :)
 
  • #10
rumborak said:
Well, you could instead do a "proactive reactive" protection, i.e. upon sensing an incoming collision, the car could send out something (air, foam, whatever) that would enable it to decelerate over a greater distance.
Sounds like an external air bag but the performance would need to be much better than an internal personal bag because the energy that would be dissipated would be several ten times greater.
 
  • #11
It wouldn't need to be an airbag either, since airbags are mostly used to not crush the driver's face. Since this device would operate on the car's body, it could be as simple as an extending bumper.
EDIT: Now I want to rewatch the "Herbie" movies :smile:
 
  • #12
rumborak said:
It wouldn't need to be an airbag either, since airbags are mostly used to not crush the driver's face. Since this device would operate on the car's body, it could be as simple as an extending bumper.
EDIT: Now I want to rewatch the "Herbie" movies :smile:
I kind of wonder about an extendable bumper as well. Very difficult in practice, but if a crash was imminent, the bumper could be "shot out" a few feet (explosives, like an air bag, or compressed gas/spring). It would then latch in place and crush on impact, absorbing some of the force. A side benefit would be the extreme force needed to extend it so quickly would slow your car a bit.

But it is hard to picture anything that could extend out a few feet, that would really have any significant strength, especially to anything that wasn't direct head-on. So without strength, it would just crumble, and there would be very little difference. But maybe it could extend/retract based on speed, and would not need to be deployed in an instant? That opens options (but probably no good ones!).
 
  • #13
Thing is also, from a certain distance on, the tires are a much more feasible option to achieve constant deceleration. That is, it's probably a much more fruitful avenue to try to engage the brakes earlier. That's what all these intelligent cars do of course.
 
  • #14
rumborak said:
Thing is also, from a certain distance on, the tires are a much more feasible option to achieve constant deceleration. That is, it's probably a much more fruitful avenue to try to engage the brakes earlier. That's what all these intelligent cars do of course.
Probably. But we only have so much tire surface.

Hey, the "Herbie" movie reference has me thinking about some crazy ideas - what if you had a couple large 'skid plates' under the car, fitted with rubber tire 'soles'. The skid plates would be forced down in an emergency, and greatly increase traction. Since they don't normally contact the road, they don't wear, no suspension required, could be soft rubber for good grip. Seems it would not be all that difficult to get 10x the contact pattern of your four tires?

The hardest part might be finding mounting points that could absorb the forces.
 

1. How does an energy shield protect cars and their passengers?

The energy shield for cars is an innovative safety technology that uses a combination of advanced materials and design to create a barrier between the car and any external impact. This shield absorbs and disperses the energy from a collision, reducing the force that is transferred to the car and its passengers. This can help minimize injuries and damage to the car in the event of a crash.

2. Can the energy shield be customized for different types of cars?

Yes, the energy shield can be customized to fit different types of cars. The materials and design can be adjusted to accommodate different sizes and shapes of cars, ensuring that the shield provides optimal protection for each specific vehicle.

3. How is the energy shield activated?

The energy shield is designed to be activated automatically in the event of a collision. Sensors and detectors within the car detect the impact and trigger the shield to deploy. This ensures that the shield is always ready to protect the car and its passengers, without the need for any manual activation.

4. Can the energy shield be reused after a collision?

In most cases, the energy shield can be reused after a collision. The materials used are designed to absorb and disperse energy without sustaining significant damage. However, the shield should be inspected and possibly replaced after a major impact to ensure that it can continue providing optimal protection.

5. Is the energy shield only effective for head-on collisions?

No, the energy shield is designed to provide protection for all types of collisions, including side and rear impacts. The materials and design are optimized to absorb and disperse energy from various angles, making it an effective safety technology for all types of collisions.

Similar threads

Three Car Collision - Can physics help clarify twin impact?
    • Mechanics
Replies
3
Views
15K
I Car Accident Physics - Are Wheels/Tires Good or Bad Energy Absorbers?
    • Classical Physics
Replies
1
Views
629
Can Adding Alternators to Car Wheels Save Energy?
    • Mechanics
Replies
10
Views
1K
The actual prospect of autonomous cars?
    • General Discussion
2
Replies
40
Views
2K
Wall thickness of ring habitats for radiation shielding
    • Sci-Fi Writing and World Building
Replies
4
Views
2K
Can anyone estimate the speed of a vehicle in a car accident without skid marks?
    • Mechanics
Replies
4
Views
1K
What type of heat created geometric geospatial Frost on my Windshield?
    • New Member Introductions
Replies
1
Views
52
Why Can a Sound Wave Not Travel Faster than the Average Molecule Speed?
    • Mechanics
Replies
23
Views
2K
Revolutionize Crash Safety: 90 Ton Impact Absorber for Cars
    • Mechanics
Replies
4
Views
1K
Could you use Solar to power a DC to AC Inverter? (Description below)
    • Electrical Engineering
Replies
6
Views
1K

Hot Threads

Recent Insights

Back
Top