PodParley PodParley
PodParley PodParley
Log in

Electric Fields: Uniform Fields & Capacitors 🔋 - High School Physics Learning & Test Prep

An episode of the High School Physics - Study by Seneca podcast, hosted by Seneca Learning, titled "Electric Fields: Uniform Fields & Capacitors 🔋 - High School Physics Learning & Test Prep" was published on May 15, 2020 and runs 2 minutes.

May 15, 2020 ·2m · High School Physics - Study by Seneca

0:00 / 0:00

Summary

Emma's got you covered this week, with everything you need to know about capacitors. She looks at parallel plate capacitors with and without a dielectric, as well as the rules for combining capacitors for series and parallel circuits and networks. Ideal for preparing you for your finals and midterms. Click here for the full course, or visit this link: http://bit.ly/2FwcYRu

Episode Description

Emma's got you covered this week, with everything you need to know about capacitors. She looks at parallel plate capacitors with and without a dielectric, as well as the rules for combining capacitors for series and parallel circuits and networks. Ideal for preparing you for your finals and midterms.

Click here for the full course, or visit this link: http://bit.ly/2FwcYRu

Share this episode

Similar Episodes

Definite Integrals (Level: APC)

May 20, 2013

Indefinite Integrals (Level: APC)

May 20, 2013

Derivatives and Max/Min (Level: APC)

May 20, 2013

Chain Rule and Product Rule (Level: APC)

May 20, 2013

Other Common Derivatives (Level: APC)

May 20, 2013

Derivatives and Power Rule (Level: APC)

May 20, 2013

Similar Podcasts

William Phillips Dr. William Daniel Phillips shared the 1997 Nobel Prize in Physics for his contributions to laser cooling, a technique to slow the movement of gaseous atoms in order to better study them. He was the valedictorian of his high school class in rural Pennsylvania, went on to graduate summa cum laude from college, and after that earned his physics doctorate from MIT. Phillips studied and advanced the scientific art of supercooling atoms for trapping and examination. Cooling slows the speed of atoms' movements, and extreme cooling to near absolute zero allows the atomic structure of gases to be slowed and trapped without having the gas condense and liquefy or solidify. Working with the laser-based "atom trap" designed by Steven Chu but modifying its parameters, Phillips was able to obtain temperatures even lower than those predicted and achieved by Chu's team. Phillips' results were so remarkable and far beyond what physicists thought would be feasible, he said that he could not believe it. Study with Me Neha I’ve recently graduated from IIT Kanpur. Throughout my high school and college career I’ve devised methods of studying that make it fun and easy to score higher and get better grades. Tune into this online library I’ve created where I’d always be here to study with you. Let’s study Physics, Chemistry, Maths and evening other subjects together! Topological Aspects of Condensed Matter Physics (Workshop and School) Directors: C. Kane, A.W.W. Ludwig, P.B. Wiegmann, M. Zahid Hasan; V. Kravtsov (Local Organiser) Topological phenomena are ubiquitous in electronic condensed matter physics. The study of these phenomena has been developed independently, but in recent years there has been a great amount of convergence. On one hand, topological phenomena have played a central role in the quantum Hall effect for many years. More recently, the non-Abelian quantum Hall states have attracted a great deal of attention, both experimentally and theoretically. On the other hand, in a completely different development taking place within the past five years, topological band insulators have been discovered theoretically, and soon after experimentally. This has led to a high level of activity in this field. The area of topological phenomena in electronic condensed matter physics is an emergent field revealing most fundamental aspects of quantum many-body physics, with potential applications to quantum computation. This two-week event will bring together leading experts in these areas with the aim of nucleating Arapahoe High School Physics Podcasts Jeff Smith Podcasts created to aid all levels of Mr. Jeff Smith's physics classes at Arapahoe High School, including content appropriate for Intro Physics, AP Physics B, and AP Physics C students.Since some content applies to all of those levels, and some might be more specific for a particular type of class, the podcast titles all indicate for which level(s) the podcast is intended.
URL copied to clipboard!