Presentation is loading. Please wait.

Presentation is loading. Please wait.

Fall 2004 Coulomb’s Law ECE 2317: Applied Electricity and Magnetism Prof. Valery Kalatsky Dept. of Electrical & Computer Engineering University of Houston.

Published byDinah Walton Modified over 8 years ago

Similar presentations

Presentation on theme: "Fall 2004 Coulomb’s Law ECE 2317: Applied Electricity and Magnetism Prof. Valery Kalatsky Dept. of Electrical & Computer Engineering University of Houston."— Presentation transcript:

1 Fall 2004 Coulomb’s Law ECE 2317: Applied Electricity and Magnetism Prof. Valery Kalatsky Dept. of Electrical & Computer Engineering University of Houston TitleTitle

2 Electric chargeElectric charge Electric Charge A basic law of the universe is that like charges repel and unlike attract. Two negatives will repel each other. A negative and a positive will attract each other. Today’s lecture: Quantitative description of forces between electric charges

3 Electric Forces: basicsElectric Forces: basics Electric Forces: basics Electric forces act between charges An electric charge DOES NOT exert a force upon itself Attraction Repulsion Electric forces depend on the amount of charge Larger separation makes force smaller Electric forces depend on the distance between charges Larger charges produces larger force

4 Electric Forces: Coulomb’s LawElectric Forces: Coulomb’s Law Electric Forces: Coulomb’s Law  0 = 8.854×10 -12 [C 2 /(N m 2 )] Permittivity of free space

5 Coulomb’s Law: vectorsCoulomb’s Law: vectors q 1 (x 1,y 1,z 1 ) x y z R r1r1 r2r2 q 2 (x 2,y 2,z 2 ) aRaR Coulomb’s Law: Vectors a R = R R 4    R 2 F = q 1 q 2 [N] aRaR, R = r 1 - r 2

6 CoulombCoulomb Charles-Augustin de Coulomb French engineer & physicist best known for the formulation of Coulomb's law. Invented torsion balance to measure the electric forces.

7 Torsion BalanceTorsion Balance Torsion Balance

8 ExampleExample q 1 =0.7 [mC] located at (3,5,7) [m] q 2 =4.9 [  C] located at (1,2,1) [m] Find: F 1, F 2 F 1 = force on charge q 1 F 2 = force on charge q 2 Example

9 Multiple chargesMultiple charges Multiple Charges Principle of superposition

10 Electric FieldElectric Field Electric Field 4    R 2 E = q1q1 [N/C] or [V/m] aRaR x y z R r2r2 r1r1 q1q1 q2q2 q2q2 E = F2F2 a R = R R 4    R 2 F = q 1 q 2 [N] aRaR, R = r 2 – r 1 Electric Field is the force acting on a 1[C] charge

11 Electric Field: Multiple ChargesElectric Field: Multiple Charges Electric Field: Multiple Charges x y z q 1 @ r 1 q2q2 q1q1 R1R1 R2R2 RNRN R3R3 q3q3 qNqN q 2 @ r 2... q N @ r N R 1 = r - r 1 R 2 = r - r 2... R N = r - r N E=E 1 +E 2 +…+E N (superposition) r E = 4    R 1 2 q1q1 a R 1 + 4    R 2 2 q2q2 a R 2 + 4    R 3 2 q3q3 a R 3 + …

12 Electric Field: Charge DistributionElectric Field: Charge Distribution Electric Field: Charge Distribution x y z r = (x,y,z)  V (r´) =  V (x´,y´,z´) R r ´ (x ´,y ´,z ´ )

13 Electric Field: Charge DistributionElectric Field: Charge Distribution x y z r = (x,y,z) R dQ =  V (r´) dV´ dV´ r ´ (x ´,y ´,z ´ ) Electric Field: Charge Distribution 4    R 2 dE = dQ aRaR 4    R 2 dE =  V (r´ ) a R dV ´ V 

14 t

15 t

16 t

17 t

Download ppt "Fall 2004 Coulomb’s Law ECE 2317: Applied Electricity and Magnetism Prof. Valery Kalatsky Dept. of Electrical & Computer Engineering University of Houston."

Similar presentations

Electricity & Magnetism

Electricity & Magnetism
Electric Charge & Electric Field

Electric Charge & Electric Field
Coulomb’s Law. Coulomb’s Law… = the relationship among electrical forces, charges, and distance. It is like Newton’s law of gravity. But, unlike gravity,

Coulomb’s Law. Coulomb’s Law… = the relationship among electrical forces, charges, and distance. It is like Newton’s law of gravity. But, unlike gravity,
Day 2 Electrical Charging & Coulomb’s Law. Objectives Charging by Conduction Charging by Induction Electroscopes Coulomb’s Law.

Day 2 Electrical Charging & Coulomb’s Law. Objectives Charging by Conduction Charging by Induction Electroscopes Coulomb’s Law.
TOC 1 Physics 212 Electric Force Dependence on Amount of Charge Dependence on Distance Magnitude of the Coulomb Force Direction of the Coulomb Force Coulomb.

TOC 1 Physics 212 Electric Force Dependence on Amount of Charge Dependence on Distance Magnitude of the Coulomb Force Direction of the Coulomb Force Coulomb.
Electric Forces and Electric Fields. Properties of Electric Charges Two types of charges exist They are called positive and negative Named by Benjamin.

Electric Forces and Electric Fields. Properties of Electric Charges Two types of charges exist They are called positive and negative Named by Benjamin.
Charges, Qualitative: Electroscope l The Phenomena Charge electroscope with rubber rod which has been rubbed with fur. Leaves separate. »Bring same.

Charges, Qualitative: Electroscope l The Phenomena Charge electroscope with rubber rod which has been rubbed with fur. Leaves separate. »Bring same.
Modern research on Contact Electrification Get PRX here Get spotlight article here.

Modern research on Contact Electrification Get PRX here Get spotlight article here.
Nadiah Alenazi 1 Chapter 23 Electric Fields 23.1 Properties of Electric Charges 23.3 Coulomb ’ s Law 23.4 The Electric Field 23.6 Electric Field Lines.

Nadiah Alenazi 1 Chapter 23 Electric Fields 23.1 Properties of Electric Charges 23.3 Coulomb ’ s Law 23.4 The Electric Field 23.6 Electric Field Lines.
Coulomb’s Law. Electric Force  Two positively charged spheres will repel each other.  The force will cause a deflection until equilibrium is reached.

Coulomb’s Law. Electric Force  Two positively charged spheres will repel each other.  The force will cause a deflection until equilibrium is reached.
Physics for Scientists and Engineers II, Summer Semester 2009 Physics 2220 Physics for Scientists and Engineers II.

Physics for Scientists and Engineers II, Summer Semester 2009 Physics 2220 Physics for Scientists and Engineers II.
Charge Coulomb’s Law 1 TOC Dependence on Amount of Charge Dependence on Distance Magnitude of the Coulomb Force Direction of the Coulomb Force Coulomb.

Charge Coulomb’s Law 1 TOC Dependence on Amount of Charge Dependence on Distance Magnitude of the Coulomb Force Direction of the Coulomb Force Coulomb.
Phy 203: General Physics III Ch 18: Electric Forces & Electric Fields Lecture Notes.

Phy 203: General Physics III Ch 18: Electric Forces & Electric Fields Lecture Notes.
5) Coulomb’s Law a)form. b) Units Two possibilities: - define k and derive q (esu) - define q and derive k (SI) √ “Define” coulomb (C) as the quantity.

5) Coulomb’s Law a)form. b) Units Two possibilities: - define k and derive q (esu) - define q and derive k (SI) √ “Define” coulomb (C) as the quantity.
Group of fixed charges exert a force F, given by Coulomb’s law, on a test charge q test at position r. The Electric Field The electric field E (at a given.

Group of fixed charges exert a force F, given by Coulomb’s law, on a test charge q test at position r. The Electric Field The electric field E (at a given.
Example Problem Solution:

Example Problem Solution:
Fall 2008Lecture 1-1Physics 231 Electric Charges, Forces, and Fields.

Fall 2008Lecture 1-1Physics 231 Electric Charges, Forces, and Fields.
WHY?. = Electromagnetism I Lecture 2 Coulomb’s Law and the Concept of Electric Field.

WHY?. = Electromagnetism I Lecture 2 Coulomb’s Law and the Concept of Electric Field.
Electromagnetic Force

Electromagnetic Force
Chapter 21 Electric Charge and Electric Fields

Chapter 21 Electric Charge and Electric Fields

Similar presentations

Ads by Google