Some of the different surfaces we used were our wall, windows, the fridge, the couch arm, doors, the tv, and our classroom white board.
Overview of Static Electricity Experiments by Ron Kurtus revised 17 November Static electricity is a collection of electrical charges on the surface of materials. We recorded the times on the form you can download below.
We timed the balloons on different surfaces around the house to see which surface attracted the statically charged balloon longer. You can optimize this "detector" by trying to use smaller bits of paper or by experimenting with other materials that will be attracted.
Like, compare the strength of a charged balloon, piece of plastic, etc. A homemade electroscope can be used to detect static electricity. Charged materials attract or repel Charges have an electrical field that can be measured For example, you can tell that an item such as a comb, balloon or piece of plastic is electrically charged by how well it attracts bits of paper.
Different types of balloons can be used but taken into account that there are different reactions to different types of balloons. Sometimes unique or new methods can be invented.
Factors in creating static electricity include: How is static electricity detected and measured?
The white board seemed to work best and we used it to further the experiment. More resources about static electricity: For our science class we are going to explore the different things static electricity can do with a couple of balloons.
Measurement The measurement of the strength of the static electricity with such a system is relative. What experiments are done on creating static electricity?
What experiments are done on applications concerning static electricity? Detecting and measuring Before you can do any experiments with static electricity, you need to be able to detect when static electricity is present and measure how strong it is.
Either you want to find which factors will optimize creating static electricity, or you can find factors that will diminish your ability to make static electricity and help to control it.
Makes our hair stand up and gives us a shock but what else can static electricity do? Most balloons will work for this as we have used even water balloons in our experiments. We rubbed the balloons on our heads to create a negative charge on the balloon while giving our hair a postivie charge that is why it stands up!This is a follow up question to Extending the reach of a crocodile clip for Kelvin Water Dropper experiment.
We have resolved the issue, but now we have the following cable (in the image) that carries static electricity but should be isolated. Well, if you know how static electricity works, you won’t need a wand!
In the Static Flyer experiment, we’ll teach you how understanding electrical charges can result in a trick that would make Harry Potter, Gandalf the Grey, and even Merlin jealous. View Notes - Lab Report 1 from PHY at Pima County Community College.
Experiment 1: Static Electricity or Electrostatics David Martinez-Rivera Date Performed: September 16, 96%(57). Static Electricity Experiment. Static electricity can be defined as building up an electric charge on the surface of an object.
The best example of static energy is, when you come inside from the cold and your hair stands on end. safety note: do not use electricity from a wall outlet for this experiment.
Handle the glass light bulb with care to avoid breakage. The bulb can be wrapped in sticky, transparent tape to reduce the chance of injury if it does break. An Overview of the Experiment, Static Electricity and a Crocodile Grip PAGES 2.
WORDS View Full Essay. More essays like this: static electricity, electric charge, crocodile grip, objects charge. Not sure what I'd do without @Kibin - Alfredo Alvarez, student @ Miami University.Download