![]() ![]() The inventor discharged one through himself and wrote, “My whole body was shaken as though by a thunderbolt.” At another time, a Leyden jar was discharged through 700 monks who were holding hands. Early Leyden jars were larger than a plastic film canister and could hold more charge. It was invented in 1745 at the University of Leyden by Pieter Van Musschenbroek. The Leyden jar is the forerunner of the modern-day capacitor. The electrostatic repulsion will allow you to fly the tinsel loop (you can see-and do!-this by checking out our Flying Tinsel activity). Electric charge will flow between the tinsel and the pie pan, making both of them positive. Tie a piece of tinsel (aluminum-coated Mylar TM) into a loop, then charge the pie pan and hold it with its bottom upward. That is, while holding the nail, touch the aluminum foil with the pan. Try rubbing it with other materials, too. To give the foam plate a positive charge, try rubbing it with a plastic bread bag. The beauty of the Leyden jar is that it can store charges from several charged pie pans, thus building up to a larger, more visible, more powerful (and more painful) spark. If you touch one finger to the foil and bring another finger near the nail at the center of the Leyden jar, a spark will jump, as the negative charges are attracted through you to the positive nail. T he resulting positive charge on the nail attracts electrons from your body through your hand onto the aluminum foil of the jar. The Leyden jar will then have a positively charged center separated from the negative foil outside by the insulating plastic of the film can. When you touch a positively charged pie pan to the nail on the Leyden jar, electrons from the nail flow onto the pie pan. For example, if you bring the positively charged pan near your finger again, or near any object that can be a source of electrons, the pan will attract electrons, creating a second spark. You can carry the positively charged pan around by its handle and carry the positive charge to other objects. Physicists say the pan has been charged by induction. You can also feel the flow of electrons through your finger.Īfter the electrons leap to your finger, the pan has a positive charge. The air in the spark is ionized as the moving electrons knock other electrons off air molecules. The electrons make a spark as they jump a few millimeters through the air to reach your finger. If you touch the pie pan while it is near the foam plate, the mobile electrons will be pushed off the pan and onto you. Since the electrons can’t leave the pie pan because it is completely surrounded by insulating air and foam, the pan remains neutral. When you place the pie pan on the foam plate, the electrons on the foam repel the electrons on the pan. Plastic foam or Styrofoam TM is an insulator it will hold its charge until it is discharged by current leaking into the air or along a moisture film on its surface. By using an electroscope (such as the one you can build with our Electroscope activity), you can determine whether the foam is positively or negatively charged. If it does, you will have to rub the plate long enough to cancel this initial charge before you can begin building a sizable negative charge. Often, a plate fresh from the package will start with a positive charge. ![]() That’s because the foam attracts electrons from the cloth. When you rub the foam plate with a wool cloth, you charge it negatively. Discharge the jar by touching the aluminum foil with one finger and the nail with another. You can make several charge deliveries by recharging the pan before again touching it to the nail. The pie pan is portable and can be used for many electrostatic experiments.Ĭharge the Leyden jar by touching the charged pie pan to the nail while holding the Leyden jar by its aluminum-foil covering. After charging the foam plate once, you can charge the pie pan several more times without recharging the plate. To make the largest spark when discharging, have the pie plate at least one foot (25 centimeters) away from the foam plate. You’ll hear a snap, feel a shock, and, if the room is dark, see a spark. You can discharge it by touching it with your finger. You may have to hold the foam plate down with your other hand. Remove the pie pan by holding only the foam-cup handle.Briefly touch the pie pan with your finger.Using the foam-cup handle, place the pie pan on top of the charged foam plate.Then charge the pie plan by following the next steps exactly: If this is your first time using the foam in an electrostatic experiment, rub it for a full minute. Rub the upside-down foam plate with the wool cloth. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |