Will the ‘free cow’ inflatable bubble protect a real person?

But that’s hard to say for sure, because NASA’s data is based on empirical evidence. And on top of that, every human being is different, with different tolerances. Body awareness is also important during acceleration. Humans are the most tolerant of acceleration in this phenomenon called “eyeballs in”. This will be the position of an astronaut as he lands on the rocket, lies back and looks up, as speed pushes the hair of the eyes into the scalp. If, however, the boy lands on the edge of his ribs, he may be able to bear only 10 to 15 g.

Now let’s learn how you can protect a falling person in real life. Suppose a person falls from a building and has the same downward speed as the cow does before impact (approximately 17.5 m / s). If you want that person to end up on the ground with zero speed, There are two things you can do to make a difference. (Remember, the goal is to accelerate with a small intensity so that the person is not injured. It may be around 10G instead of 25, although it will still be rough.)

First, you can arrange for the person to hit something soft and stop instead of jumping. Acceleration depends on the change in speed (vector). This means going at a speed of 17.5 meters / second. Down One of 10 m / s Top 27.5 m / s change, because direction matters. However, if the person stops and does not bounce, it will only change the speed by 17.5 m / s. With a small change in speed, you will have a smaller acceleration جس which means less G-force. This will keep the conflict alive.

The second thing to change is time. If you increase the time at which a person stops, you reduce their speed. I’m sure you were in a car that was moving at 17.5 m / s at 39 miles per hour. When you stop, it will probably not hurt you. This is because a car stops every 10 seconds – so the speed is very small even though your speed will change as much as a cow’s.

In real life, you can extend your stay with something like a stent airbag. These are large inflatable structures that fall on impact and are used in movies when filming action scenes. The airbag in your car is based on the same principle to keep you safe. More secureIn an accident. By preventing the body from moving over a long distance, the airbags increase the impact time. Which slows down Both types of airbags eliminate the effect to prevent the person from bouncing back. (Which I mentioned in the previous example is bad.) Of course, an airbag won’t work for the scene. Free cowYou have to arrange it before autumn and know where the boy is going to land.

So, bottom line is that the inflatable cushion ring around the cow looks cool and creates a ridiculously bouncy scene. But given its 25G speed, landing is still painful.

Unless the boy is real. In that case, he is OK.


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