Hydrogen. This is a VERY good point Mark. Batteries produce hydrogen when they are charging. It is VERY important to handle them carefully. One situation that you didn't cover directly (but did indirectly) was when charging a battery with a portable battery charger, NEVER connect or disconnect the aligator clips to the battery while the charger is plugged into the electrical outlet. ALWAYS connect the charger to the battery THEN plug it in. When removing it, UNPLUG it then disconnect it from the battery. This way, you are never connecting a live device to another live device at the battery and there will never be a spark at the battery. If you get any sparks, it will be at the 110V outlet, probably 6 feet from the battery. Connecting the charger to the battery first also allows you to look at the light on your charger to be sure you have the polarity correct. You DON'T want to reverse charge your battery! When boosting, the rule to connect the dead car's negative cable to the engine etc. comes directly from the need to keep any sparks away from the battery. Another fact to remember. Hydrogen is lighter than air...heck, it's lighter than everything! It will rise up and dissipate, but don't trap it indoors or anything. Just remember where the stuff is going. Play safe! ----- Original Message ----- From: "Mark McDonald" <tomswift@xxxxxxxxxxxxx> To: <mailing-list@xxxxxxxxxxxxxxxx> Sent: Wednesday, April 09, 2003 6:25 PM Subject: IML: Exploding Batteries This is not strictly Imperial related, but it's a safety issue and I thought it was important to pass this along. I am working on a project with a fellow who used to work for one of the major battery manufacturers and he has been telling me some of the horror stories that he became aware of regarding lead acid batteries-- the type most commonly found in automobiles (and Imperials). Jumping your car's battery can be VERY dangerous. The "exploding battery" is not a myth. This guy was telling me that you seldom hear about these cases-- where people have lost their eyesight or their limbs while jumping a car battery-- because the battery companies have a policy of settling these cases the minute they come up. They set aside a portion of their profits to pay off the victims of these accidents, the main reason being to keep down negative publicity that would result from a contested case. I know it's been said here before, but the way most people jump their batteries is the wrong way to do it. Most folks go from the positive terminal on one battery to the positive on the other battery, and from negative to negative with the other cable. The proper way, according to my source, is to go POSITIVE to POSTIVE, and then NEGATIVE to GROUND. In other words, on the car with the good battery, the car you are jumping from, you attach both clamps to the terminals. On the car with the bad battery, the one you are jumping, you attach the cable from the positive terminal to the positive terminal, and then the negative to a bolt or something on the block AS FAR AWAY FROM THE BATTERY as you can. When you are done, you go in the reverse order. That way, if there is a spark, there is less change of it igniting any gases from the battery. Contrary to what most people think, the most dangerous time for a spark is right AFTER you finish jumping-- not when you first connect the batteries. The reason for this is, once that "dead" battery is hit with electricity, it will immediately start to release gases as a byproduct of the internal reaction that goes on. Those gases go right into the atmosphere around your battery. I know a lot of people may already know this, but not everyone (I didn't). Friends of mine have always laughed at me for stepping back and turning my head away when jumping, but it is NOT a joke. I really got some grisly details from this guy. Not only can the battery explode, but when it does, it is flinging out acid and tiny bits of casing and the metal plates inside-- and most people are usually looking directly at the battery when this happens. So it is not stupid to wear goggles. Batteries are also more volatile right after they've been charged. He told me a story about a fellow who bought a brand new battery at an Autozone (or similar store) and had his arm blown off carrying the battery out of the store. All it took was a little bit of static electricity when he touched the metal door handle on his way out. This guy settled out of court for $300,000. (The only way to really protect yourself in this case is not to move a battery right after it's been "quick charged" or carry it in an insulating box or sack, I guess.) Anyway, folks, be careful jumping your battery! It's not a myth! Mark M