Static electricity is applied to multiple purposes in daily human lives starting from attractions between objects to repulsion between different objects. Static electricity is commonly generated when objects come into contact. As the electrons stay stationary during the attraction between objects, it generates static electricity in the process. Static ions can be seen through extra ions present in the air. In simple words, when two objects create an attractive force between each other, it leads to the formation of static electricity in the process.
Static electricity is a common electric phenomenon where charged particles are transferred from one particular body to another. When the positive charges and the negative charges are not balanced within each other, it causes the generation of static electricity as two objects get attracted to each other's force (Allaboutcircuits, 2022). The neutrons and the protons are mostly stationary during the generation of static electricity, but the electrons are transmitted during its formation between objects.
Figure 1: Static electricity between two objects
For example, if a silk cloth is rubbed against a glass rod, they both will stick to each other. Here, an attractive force is generated between these two objects which are making them stick to each other. Despite being two completely different types of materials, the glass rod and the cloth will stick to each other because of the electrical phenomenon called static electricity.
Static electricity has a few distinctive characteristics and properties that make it different. This type of electricity is generated mostly due to the imbalance between the positive charges and the negative charges of an object. Static electricity can be defined as an insulator as well as a conductor due to its characteristics.
For example, when hair gets stuck with wool hats, static electricity is generated between the hair and the wool hat. In addition, the phenomenon of static electricity is common in the dry seasons, as the transference of electrons is resisted by the moister in the air (Kim, Kim & Jeong, 2018).
Static electricity cannot be produced continuously due to the discharge of energy within different objects. It can only be produced while being in the static or constant state.
Static build-up happens when electric charges are exchanged between two objects that come into contact. The build-up can be segmented into three different types, contact, frictional and detachment static build-up.
This static build-up phenomenon happens when two different objects come into contact and the electrons of those objects are transferred to each other.
Figure 2: Contact Static Build-up of static electricity
When the transition of the charge between these two objects is completed, instant contact is made between those objects (Keyence, 2022). This build-up is responsible for the generation of static electricity by detachment and contact of objects.
In the case of Frictional Static Build-up, the static build-up is generated when the fiction takes place among the two respective objects. Due to fiction, the two bodies seem to exchange electric charges among them, and thus it generates static electricity (Suma et al. 2018). With a larger area of contact the static electricity increases respectively.
Figure 3: Frictional Static Build-up
In this section of Detachment Static Build-up, static electricity is produced, when items of protective films and adhesive steps are removed. At the time of removal of the tape or film, an exchange of charges occurs.
Figure 4: Detachment Static Build-up
Static Electricity can be generated through many processes; however, the main causes consist of the notion of contact and separation between two bodies such as seen during the time of fiction. Rapid changes in the aspects of heat may generate static electricity, such can be noticed in the microwave, from radiation of heat energy such as, UV rays' ', X Rays' ' leads to the formation of electricity (Allaboutcircuits, 2022). However, these occurrences are noticed in industries. Through the action of cutting and induction also the static electricity is generated. For example, cutting actions are seen in sheet cutter and induction is noted when standing within the electric field.
The application of static electricity is common in the field of modern science that includes, super capacitors, laser printers, and photocopies (Livescience, 2022). However, it is also used in materials for piezoelectric, in producing crystal microphones and also in, paints for electrostatic sprays and precipitators.
In this tutorial, the focus has been given to the concept that lies within the generation of static electricity through several processes. In our daily lives, we do experience several phenomena that are associated with static electricity, such as lightning and thunder that is experienced due to the exchange of charges among the charged bearing clouds.
Q1. What are the two methods used in developing a Static Electricity Generator?
The electrostatic generator is used in making the production of static electricity, however, the static electricity is produced by conversion from fiction into electricity. There are two possible methods that are used for the generation of static electricity that includes, effect of turboelectric and the induction associated with electrostatic forces. The turboelectric effect occurs when two objects are in close vicinity, which results in the transference of charges among them.
Q2. What kind of electricity is produced during the phenomenon of lightning?
During the time of lightning, static electricity is produced. The production of static electricity produces due to the exchange of atom particles and therefore it results in production of a very short span production of energy. This results in the occurrence of the phenomenon of lightning.
Q3. What are the devices used in conducting the measurement of static electricity?
Static electricity cannot be measured with the usage of analogue or digital meters; however, Gold Leaf Electroscope is the single instrument that measures the magnitude of static electricity.
Kim, D. W., Kim, S. W., & Jeong, U. (2018). About Lipids: source of static electricity of regenerative natural substances and nondestructive energy harvesting. Advanced Materials, 30(52), 1804949. Retrieved from: http://home.skku.edu/~nesel/paper%20files/225.pdf
Suma, K., Sadia, I. W., & Pujani, N. M. (2018). About Investigating 12th-grade students' prior knowledge of static electricity concepts. International Journal of Environment and Science Education, 13(2), 163-172. Retrieved from: http://www.ijese.net/makale_indir/IJESE_2016_article_5a9bfc903dd2f.pdf
Allaboutcircuits (2022). Static electricity examples. Retrieved from: https://www.allaboutcircuits.com/textbook/direct-current/chpt-1/static-electricity/ [Retrieved on 15th June 2022]
Keyence (2022). Static electricity. Retrieved from: https://www.keyence.com/ss/products/static/resource/feature/static.jsp [Retrieved on 15th June 2022]
Livescience (2022), Static electricity, Retrieved from: https://www.livescience.com/51656-static-electricity.html [Retrieved on 15th June 2022]