Tại sao không nên dùng điện thoại di động khi đổ xăng?

[khanhhung]

Hệ thống quảng cáo SangNhuong.com

Đây là vài lý do giải thích tại sao ta không được sử dụng điện thoại di động tại những nơi có chứa xăng dầu, khí đốt , chất dể bốc cháy ...

Công ty Shell cảnh báo vừa mới xảy ra 3 tại nạn do điện thoại di động gây hỏa hoạn trong lúc đổ xăng:
1- Trường hợp thứ nhất : điện thoại di động được để trên thùng xe trong khi tài xế châm xăng ; điện thoại reo lên và phát hỏa làm cháy rụi chiếc xe lẩn trạm xăng.
2- Trường hợp II : Tài xế bị phỏng cả mặt khi nghe diện thoại trong lúc đang đổ xăng.
3- Trượng hợp III : một người đang đổ xăng thì chiếc điện thoại để trong túi reo lên & phát hỏa khiến đùi và bụng dưới của anh ta bị phỏng.
Bạn nên biết là điện thoại di động của bạn có thể sẹc lửa làm bốc cháy xăng dầu hay khí đốt.
Khi bật mở, hay khởi động, điện thoại di động phát ra 1 số năng lượng đủ nẹt ra tia lửa để đốt cháy...hơi xăng hay khí đốt..
Không nên Sử dụng điện thoại di động khi đang đổ xăng xe, châm dầu máy cắt cỏ ,máy tàu v..v..
Không nên xử dụng hay tắt điện thoại di động lân cận những máy móc đang phát ra chất khí dễ cháy hay dễ nổ hay bụi bặm ( ví như xăng ,dầu, khí đốt , hạt bụi v..v..)
Bốn điều cần để ý khi châm,do xăng dầu:
- Tắt máy
- Không hút thuốc
- Không xử dụng cell phone
- Không trở vào trong xe khi đang đổ xăng ( vì lý do " static electricity" (tỉnh điện)
Hơi bốc từ dầu xăng sẽ bốc cháy khi chạm phải tỉnh điện( static electricity)
( Theo autorepair)

[jmis]

Hệ thống quảng cáo SangNhuong.com

do người việt ta tuy tiện khi tiếp xúc với các dễ cháy nổ nên mới xảy ra những hiện tượng như vậy. Ở bất kì cây xăng nào cũng đều có khuyến cáo như vậy nhưng hầu hết người dân không tuân thủ.

[support]

haizz..có ai chứng minh được ở Việt Nam xảy ra vụ việc cháy nổ xăng do điện thoại di động không? và cho mình hỏi cái "static electricity" được hiểu như thế nào?

[chanhdaitn]

Hệ thống quảng cáo SangNhuong.com

:doubt:không bác nào trả lời em

[dongkwangvina]

static electricity là tĩnh điện, hồi nhỏ có học thì phải. Giờ muốn nhớ lại thì đọc hiểu cái này:


Copyright © 1995-2009 by Science Made Simple, Inc.


You walk across the rug, reach for the doorknob and..........ZAP!!! You get a static shock.


Or, you come inside from the cold, pull off your hat and......BOING!!! Static hair - that static electricity makes your hair stand straight out from your head. What is going on here? And why is static more of a problem in the winter? To understand static electricity, we have to learn a little bit about the nature of matter. Or in other words, what is all the stuff around us made of?


EVERYTHING IS MADE OF ATOMS

Imagine a pure gold ring. Divide it in half and give one of the halves away. Keep dividing and dividing and dividing. Soon you will have a piece so small you will not be able to see it without a microscope. It may be very, very small, but it is still a piece of gold. If you could keep dividing it into smaller and smaller pieces, you would finally get to the smallest piece of gold possible. It is called an atom. If you divided it into smaller pieces, it would no longer be gold.



Everything around us is made of atoms. Scientists so far have found only 115 different kinds of atoms. Everything you see is made of different combinations of these atoms.



PARTS OF AN ATOM

So what are atoms made of? In the middle of each atom is a "nucleus." The nucleus contains two kinds of tiny particles, called protons and neutrons. Orbiting around the nucleus are even smaller particles called electrons. The 115 kinds of atoms are different from each other because they have different numbers of protons, neutrons and electrons.


It is useful to think of a model of the atom as similar to the solar system. The nucleus is in the center of the atom, like the sun in the center of the solar system. The electrons orbit around the nucleus like the planets around the sun. Just like in the solar system, the nucleus is large compared to the electrons. The atom is mostly empty space. And the electrons are very far away from the nucleus. While this model is not completely accurate, we can use it to help us understand static electricity.

(Note: A more accurate model would show the electrons moving in 3- dimensional volumes with different shapes, called orbitals. This may be discussed in a future issue.)



ELECTRICAL CHARGES

Protons, neutrons and electrons are very different from each other. They have their own properties, or characteristics. One of these properties is called an electrical charge. Protons have what we call a "positive" (+) charge. Electrons have a "negative" (-) charge. Neutrons have no charge, they are neutral. The charge of one proton is equal in strength to the charge of one electron. When the number of protons in an atom equals the number of electrons, the atom itself has no overall charge, it is neutral.



ELECTRONS CAN MOVE

The protons and neutrons in the nucleus are held together very tightly. Normally the nucleus does not change. But some of the outer electrons are held very loosely. They can move from one atom to another. An atom that loses electrons has more positive charges (protons) than negative charges (electrons). It is positively charged. An atom that gains electrons has more negative than positive particles. It has a negative charge. A charged atom is called an "ion."




Some materials hold their electrons very tightly. Electrons do not move through them very well. These things are called insulators. Plastic, cloth, glass and dry air are good insulators. Other materials have some loosely held electrons, which move through them very easily. These are called conductors. Most metals are good conductors.
How can we move electrons from one place to another? One very common way is to rub two objects together. If they are made of different materials, and are both insulators, electrons may be transferred (or moved) from one to the other. The more rubbing, the more electrons move, and the larger the static charge that builds up. (Scientists believe that it is not the rubbing or friction that causes electrons to move. It is simply the contact between two different materials. Rubbing just increases the contact area between them.)


Static electricity is the imbalance of positive and negative charges.


OPPOSITES ATTRACT

Now, positive and negative charges behave in interesting ways. Did you ever hear the saying that opposites attract? Well, it's true. Two things with opposite, or different charges (a positive and a negative) will attract, or pull towards each other. Things with the same charge (two positives or two negatives) will repel, or push away from each other.



A charged object will also attract something that is neutral. Think about how you can make a balloon stick to the wall. If you charge a balloon by rubbing it on your hair, it picks up extra electrons and has a negative charge. Holding it near a neutral object will make the charges in that object move. If it is a conductor, many electrons move easily to the other side, as far from the balloon as possible. If it is an insulator, the electrons in the atoms and molecules can only move very slightly to one side, away from the balloon. In either case, there are more positive charges closer to the negative balloon. Opposites attract. The balloon sticks. (At least until the electrons on the balloon slowly leak off.) It works the same way for neutral and positively charged objects.




So what does all this have to do with static shocks? Or static electricity in hair? When you take off your wool hat, it rubs against your hair. Electrons move from your hair to the hat. A static charge builds up and now each of the hairs has the same positive charge. Remember, things with the same charge repel each other. So the hairs try to get as far from each other as possible. The farthest they can get is by standing up and away from the others. And that is how static electricity causes a bad hair day!


(Get tips on how to eliminate
static electricity problems
in your home or office.)
As you walk across a carpet, electrons move from the rug to you. Now you have extra electrons and a negative static charge. Touch a door knob and ZAP! The door knob is a conductor. The electrons jump from you to the knob, and you feel the static shock.
We usually only notice static electricity in the winter when the air is very dry. During the summer, the air is more humid. The water in the air helps electrons move off you more quickly, so you can not build up as big a static charge.


Discover the wonders of science.
It's easy with the Science Made Simple newsletter.
Click here to get yours now completely RISK FREE!



I CAN READ


What is Static Electricity?



Everything we see is made up of tiny little parts called atoms. The atoms are made of even smaller parts. These are called protons, electrons and neutrons. They are very different from each other in many ways. One way they are different is their "charge." Protons have a positive (+) charge. Electrons have a negative (-) charge. Neutrons have no charge. Usually, atoms have the same number of electrons and protons. Then the atom has no charge, it is "neutral." But if you rub things together, electrons can move from one atom to another. Some atoms get extra electrons. They have a negative charge. Other atoms lose electrons. They have a positive charge. When charges are separated like this, it is called static electricity.
If two things have different charges, they attract, or pull towards each other. If two things have the same charge, they repel, or push away from each other.



So, why does your hair stand up after you take your hat off? When you pull your hat off, it rubs against your hair. Electrons move from your hair to the hat. Now each of the hairs has the same positive charge. Things with the same charge repel each other. So the hairs try to move away from each other. The farthest they can get is to stand up and away from all the other hairs.



If you walk across a carpet, electrons move from the rug to you. Now you have extra electrons. Touch a door knob and ZAP! The electrons move from you to the knob. You get a shock.