Presentation is loading. Please wait.

Presentation is loading. Please wait.

Do now: NCEA 2006 1) Calculate the total capacitance 2) Calculate the total charge stored in the capacitors 3) Calculate the total energy stored in the.

Published byLewis Sims Modified over 8 years ago

Similar presentations

Presentation on theme: "Do now: NCEA 2006 1) Calculate the total capacitance 2) Calculate the total charge stored in the capacitors 3) Calculate the total energy stored in the."— Presentation transcript:

1 Do now: NCEA 2006 1) Calculate the total capacitance 2) Calculate the total charge stored in the capacitors 3) Calculate the total energy stored in the capacitors 4) Calculate the voltage across the 4.00 μF capacitor Hātarei, 26 Hakihea 2015

2

3 Sketch and explain these graphs for charging a capacitor It’s easy at first because the plates are empty, but as they fill the stored charge starts to repel further charge and the rate decreases Voltage across capacitor t V max Current in circuit t I max As the rate of charge movement decreases, the current flow in the circuit decreases

4 Sketch and explain these graphs for discharging a capacitor The voltage will be at a max to begin with, drops quickly at first (due to maximum repulsion), but then more slowly as fewer charges remain on the capacitor. The current will be large at first, but decrease as potential left to “push” decreases Voltage across capacitor t V max Current in circuit t I max

5 Time constant Is the time it takes for V (or I) to change by 63% of its value If C is large, more charge can be stored, so takes longer to fill/empty. More R in the circuit means smaller current, so longer to fill/empty. A cap is considered fully charged or discharged after 3 time constants

6 Skim read p229 – 233 Look at Example on p231 *** Do Activity 14C ***

Download ppt "Do now: NCEA 2006 1) Calculate the total capacitance 2) Calculate the total charge stored in the capacitors 3) Calculate the total energy stored in the."

Similar presentations

Explain the process of charging and discharging based on the voltage and current curves. Determine the related equations for the voltage and current curves.

Explain the process of charging and discharging based on the voltage and current curves. Determine the related equations for the voltage and current curves.
RC Circuits.

RC Circuits.
St Columba’s High School Electricity and Electronics Capacitors.

St Columba’s High School Electricity and Electronics Capacitors.
Unit 2 Day 3: Electric Energy Storage Electric potential energy stored between capacitor plates Work done to add charge to the capacitor plates Energy.

Unit 2 Day 3: Electric Energy Storage Electric potential energy stored between capacitor plates Work done to add charge to the capacitor plates Energy.
Capacitors and/or TV (not Emf). 1. An empty capacitor does not resist the flow of current, and thus acts like a wire. 2. A capacitor that is full of charge.

Capacitors and/or TV (not Emf). 1. An empty capacitor does not resist the flow of current, and thus acts like a wire. 2. A capacitor that is full of charge.
Copyright © 2009 Pearson Education, Inc. Dielectrics.

Copyright © 2009 Pearson Education, Inc. Dielectrics.
Lecture 4 Capacitance and Capacitors Chapter 16.6  16.10 Outline Definition of Capacitance Simple Capacitors Combinations of Capacitors Capacitors with.

Lecture 4 Capacitance and Capacitors Chapter 16.6  Outline Definition of Capacitance Simple Capacitors Combinations of Capacitors Capacitors with.
CAPACITORS SLIDES BY: ZIL E HUMA. OBJECTIVES CHARGING OF THE CAPACITORS DISCHARGING OF THE CAPACITORS DIELECTRIC MATERIALS FACTORS EFFECTING THE VALUES.

CAPACITORS SLIDES BY: ZIL E HUMA. OBJECTIVES CHARGING OF THE CAPACITORS DISCHARGING OF THE CAPACITORS DIELECTRIC MATERIALS FACTORS EFFECTING THE VALUES.
I Chapter 25 Electric Currents and Resistance HW7: Due Monday, March 30; Chap.24: Pb.32,Pb.35,Pb.59 Chap.25: Pb.19,Pb.25,Pb.31.

I Chapter 25 Electric Currents and Resistance HW7: Due Monday, March 30; Chap.24: Pb.32,Pb.35,Pb.59 Chap.25: Pb.19,Pb.25,Pb.31.
Capacitors insulating dielectric Capacitors store charge. They have two metal plates where charge is stored, separated by an insulating dielectric. To.

Capacitors insulating dielectric Capacitors store charge. They have two metal plates where charge is stored, separated by an insulating dielectric. To.
Capacitance Physics Department, New York City College of Technology.

Capacitance Physics Department, New York City College of Technology.
ECE 201 Circuit Theory I1 Capacitance Capacitance occurs whenever electrical conductors are separated by a dielectric, or insulating material. Applying.

ECE 201 Circuit Theory I1 Capacitance Capacitance occurs whenever electrical conductors are separated by a dielectric, or insulating material. Applying.
Lesson 15 – Capacitors Transient Analysis

Lesson 15 – Capacitors Transient Analysis
RC Circuits PH 203 Professor Lee Carkner Lecture 14.

RC Circuits PH 203 Professor Lee Carkner Lecture 14.
IEEE’s Hands on Practical Electronics (HOPE)

IEEE’s Hands on Practical Electronics (HOPE)
Resistors and Capacitors in the Same Circuit!!. So far we have assumed resistance (R), electromotive force or source voltage (ε), potential (V), current.

Resistors and Capacitors in the Same Circuit!!. So far we have assumed resistance (R), electromotive force or source voltage (ε), potential (V), current.
RC (Resistor-Capacitor) Circuits

RC (Resistor-Capacitor) Circuits
4.4 Fields Capacitance Breithaupt pages 94 to 101 September 28 th, 2010.

4.4 Fields Capacitance Breithaupt pages 94 to 101 September 28 th, 2010.
Engineering Science EAB_S_127 Electricity Chapter 4.

Engineering Science EAB_S_127 Electricity Chapter 4.
Edexcel A2 Physics Unit 4 : Chapter 2.2: Capacitance Prepared By: Shakil Raiman.

Edexcel A2 Physics Unit 4 : Chapter 2.2: Capacitance Prepared By: Shakil Raiman.

Similar presentations

Ads by Google