How much pressure on the skull to kill a person?

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In summary: Yes, under 1 cm hail will hurt a lot and may cause superficial injuries, but anything bigger and you're going to get hurt.
  • #1
rohanprabhu
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I know it's old already.. but this came up when I was lecturing my mom on the evil effects of urban myths and stuff.. so here it goes..

I'm throwing a 5 rupee coin [Weight: 0.009 kg], from the Empire state building's roof [Height: 381m]. The coin hits a passerby on his head, as in.. vertically i.e. the coin's circumference hits him:

http://img248.imageshack.us/img248/3748/howithitsmo3.jpg [Broken]

So, the GPE of the coin is: [itex]\textrm{U} = \textrm{mgh} = (0.009 \times 9.8 \times 381) ~J = 33.7~J[/itex]. Assuming that the coin hits the head and stops is 0.1s (which I assume is more than what would practically happen) it means that when the coin hits the person, it hits with a velocity:

[tex]
v = \sqrt{\frac{2\textrm{U}}{\textrm{m}}}
[/tex]

[tex]
v = 86.54~\textrm{m/s}
[/tex]

meaning, it has a momentum of:

[tex]
p = 0.778 ~\textrm{kg} \cdot \textrm{m/s}
[/tex]

which was imparted in 0.1s, meaning a total force of:

[tex]
F = \frac{0.778}{0.1} = 7.78~\textrm{kg} \cdot \textrm{m} / \textrm{s}^2
[/tex]

I stained the coins circumference with black ink, and placed it on paper, to get the area that the coin would hit. I got a rough rectangle of 0.2cm x 0.5 cm, meaning a total area of [itex]10^{-5}~\textrm{m}^2[/itex].

So, the pressure on the skull at that point would be:

[tex]
P = \frac{7.78}{10^{-5}}~\textrm{Pa} = 7.78 \times 10^{5}~\textrm{Pa}
[/tex]

which is like, around 8 times the atmospheric pressure.

So, the question is.. could this kill a person? And, if the time within which the coin stops is like, 10 times less, the pressure is 10 times more. Since, I'm not sure about the interval.. if the coin hits in like 0.01s, the pressure would be 80 times the atmospheric pressure. Could that kill a person?
 
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  • #2
I think the coin would stop much faster then 0.1 seconds and if the coin lands on an edge the pressure will also be higher. I have read once in a news group that 90 atmospheres was survivable but you would be barely able to breath. That said I won't volunteer to be your test dummy.
 
  • #3
The coin will rapidly reach terminal velocity, which well below 90 m/s. Didn't 'Mythbusters' do an episode on this?
 
  • #4
Andy Resnick said:
The coin will rapidly reach terminal velocity, which well below 90 m/s. Didn't 'Mythbusters' do an episode on this?

yes, the terminal velocity of a penny will be much slower. On the show they determined that the speed would not even be enough to break the skin, but it would hurt.
 
  • #5
John Creighto said:
I think the coin would stop much faster then 0.1 seconds and if the coin lands on an edge the pressure will also be higher. I have read once in a news group that 90 atmospheres was survivable but you would be barely able to breath. That said I won't volunteer to be your test dummy.

90 atmos is not comfortable when you are enclosed in an pressure field of 90 atmos. If the pressure is at a small point on your skin, you won't really feel it as much.

h2oski1326 said:
yes, the terminal velocity of a penny will be much slower. On the show they determined that the speed would not even be enough to break the skin, but it would hurt.

righto.. I clearly missed the fact that this experiment was being conducted inside a fluid medium. I assumed no air around me..
 
  • #6
rohanprabhu said:
righto.. I clearly missed the fact that this experiment was being conducted inside a fluid medium. I assumed no air around me..
If you are walking under the Empire State and there is no air around you - falling pennies are the least of your worries!
 
  • #7
Surely you've been hit by hail which is more aerodynamic than a farthing and falls farther.
 
  • #8
TVP45 said:
Surely you've been hit by hail which is more aerodynamic than a farthing and falls farther.

Hail can get upto quite a speed. Terminal velocity for a sphere in air at hgh speed is roughly V = 90 sqrt( diamter ) m/s
So large 1inch hail can reach 15m/s = 35mph
 
  • #9
Yes, hail that size (and bigger) does sometimes kill people. There was an instance somewhere in Asia a few decades back where they had something like 8 cm diameter hail! But, the little stuff under 1 cm hurts but that's all.
 
  • #10
mgb_phys said:
Hail can get upto quite a speed. Terminal velocity for a sphere in air at hgh speed is roughly V = 90 sqrt( diamter ) m/s
So large 1inch hail can reach 15m/s = 35mph

Shouldn't it depend on the density?
 
  • #11
The hail around here can be pretty nasty. To start with, it's extremely dense, with no air spaces between the ice crystals. If you bust one in two, it looks like an onion inside. There are regularly millions of dollars in hail-damage insurance claims after a big storm (that includes crop damage). The stones break car windshields, severely dent the bodywork, and punch through house siding. Usually about the biggest is smaller than a golf-ball, but it's been known to come in baseball size. You don't want to get pelted with that stuff for long.
 
  • #12
John Creighto said:
Shouldn't it depend on the density?
Yes, this assumes sea level air and the density of ice doesn't vary very much - it's just an approximation.
 
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Question 1: How much pressure on the skull is needed to kill a person?

The amount of pressure needed to kill a person varies greatly depending on the individual's age, health, and other factors. However, studies have shown that an average of 110 pounds of pressure is required to fracture the skull and potentially cause death.

Question 2: Can a person survive a certain amount of pressure on the skull?

It is possible for a person to survive a certain amount of pressure on the skull. The skull is a strong and resilient bone, and depending on the location and severity of the pressure, a person may be able to survive with medical intervention.

Question 3: What happens to the brain when there is pressure on the skull?

When there is pressure on the skull, the brain may experience trauma or damage. The brain is protected by the skull, but when there is enough pressure, it can cause the brain to shift or compress, leading to serious injuries or death.

Question 4: What factors can affect the amount of pressure needed to kill a person?

There are several factors that can affect the amount of pressure needed to kill a person, including age, overall health, the location of the pressure on the skull, and the force of the pressure. People with weaker skulls, such as infants or older adults, may require less pressure to cause fatal injuries.

Question 5: How does the pressure on the skull differ in different types of injuries?

The pressure on the skull can differ in different types of injuries. For example, blunt force trauma, such as a fall or a blow to the head, may require more pressure to cause death compared to penetrating injuries, like a gunshot wound. The location and severity of the injury also play a role in the amount of pressure needed to cause death.

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