Presentation is loading. Please wait.

Presentation is loading. Please wait.

Electrostatics St. John/Hall Chapter 32.

Published byHomer Marsh Modified over 8 years ago

Similar presentations

Presentation on theme: "Electrostatics St. John/Hall Chapter 32."— Presentation transcript:

1 Electrostatics St. John/Hall Chapter 32

2 Charge there are two kinds of charge, positive and negative
like charges repel, unlike charges attract positive charge comes from losing electrons; negative charge comes from gaining electrons charge is quantized, meaning that charge comes in integer multiples of the elementary charge e q = n e q is the symbol used to represent charge, while n is a positive or negative integer, and e is the electronic charge, 1.60 x Coulombs. charge is conserved in isolated systems

3 Electric Charge – The specifics
The symbol for CHARGE is “q” The unit is the COULOMB(C), named after Charles Coulomb If we are talking about a SINGLE charged particle such as 1 electron or 1 proton we are referring to an ELEMENTARY charge and often use, e , to symbolize this. Some important constants: Particle Charge Mass Proton 1.6x10-19 C 1.67 x10-27 kg Electron 9.11 x10-31 kg Neutron

4 Conduction An electroscope is a device used to detect the presence of charge and it's relative amount.  One method of charging the electroscope is by conduction or contact.  This means that a charged object must actually touch the electroscope and transfer charge too.  When charging something by contact it is important to note the following properties: The objects must actually touch and transfer some electrons. The objects become charged alike.

5 Coulomb’s Law Newton’s Law
Inverse Square Laws Coulomb’s Law Newton’s Law Similarities: Both the forces are directly proportional to the product of the interacting commodities (mass and charge) Both the forces are inversely proportional to the square of the distance of separation Differences: The Coulombian force can be attractive or repulsive while the gravitational force is attractive only

6 Robert Millikan Milikan created an experiment using oil drops placed within a capacitor field to show that all charges are a multiple of 1.6 x 10-19

7 Practice Problems 1. Suppose that two point charges, each with a charge of Coulomb are separated by a distance of 1.00 meter. Determine the magnitude of the electrical force of repulsion between them. 2. Two balloons are charged with an identical quantity and type of charge: C. They are held apart at a separation distance of 61.7 m. Determine magnitude of the electrical force of repulsion between them. 3. Two balloons with charges of C and C attract each other with a force of Newtons. Determine the separation distance between the two balloons. (Felect = 9.0 x 109 N) (Felect = 9.23 x 107 N) (d = 1.99 x 10-1)

8 Problems e. 4. The Q in Coulomb's law equation stands for the _____. a. mass of a charged object b. # of excess electrons on the object c. the current of a charged object d. the distance between charged objects e. charge of a charged object 5. The symbol d in Coulomb's law equation represents the distance from ___. a. A to B b. A to D c. B to C d. B to D e. C to D f. A to G g. B to F h. C to E g.

9 Problems 6. Determine the electrical force of attraction between two balloons with separate charges of +3.5 x 10-8 C and -2.9 x 10-8 C when separated a distance of 0.65 m. 7. Determine the electrical force of attraction between two balloons with opposite charges but the same quantity of charge of 6.0 x 10-7 C when separated a distance of 0.50 m. 8. A balloon has been rubbed with wool to give it a charge of -1.0 x 10-6 C. A plastic rod with a charge of +4.0 x 10-6 C localized at a given position is held a distance of 50.0 cm above the balloon. Determine the electrical force of attraction between the rod and the balloon.

Download ppt "Electrostatics St. John/Hall Chapter 32."

Similar presentations

Voltage in Electrical Systems

Voltage in Electrical Systems
Atoms are composed of Electrons – fundamental negatively charged (-) particle of matter (-1.6 x10-19C) 2. Protons – fundamental positively charged (+)

Atoms are composed of Electrons – fundamental negatively charged (-) particle of matter (-1.6 x10-19C) 2. Protons – fundamental positively charged (+)
Chapter 20 Static Electricity. Objectives  Charged Objects  Conductors and Insulators  Forces on Charged Bodies  Coulomb’s Law  The unit of charge.

Chapter 20 Static Electricity. Objectives  Charged Objects  Conductors and Insulators  Forces on Charged Bodies  Coulomb’s Law  The unit of charge.
Chapter 21. Electric Charge

Chapter 21. Electric Charge
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.
Static Electricity PSE Chapter 15 pg. 197 Textbook Chapter 32.

Static Electricity PSE Chapter 15 pg. 197 Textbook Chapter 32.
Static Electricity Hopefully you studied this link:

Static Electricity Hopefully you studied this link:
Honors Physics. He loads the clouds with moisture; he scatters his lightning through them. Job 37:11.

Honors Physics. He loads the clouds with moisture; he scatters his lightning through them. Job 37:11.
Electric Forces and Electric Fields

Electric Forces and Electric Fields
Electrostatics.

Electrostatics.
Electrostatics Electrostatics The study of electrical charges that can be collected and held in one place. The study of electrical charges that can be.

Electrostatics Electrostatics The study of electrical charges that can be collected and held in one place. The study of electrical charges that can be.
Chapter 21, Electric Charge, and electric Field. Charles Allison © 2000 21.1 Electric Charge, q or Q Charge comes in two types 1e = 1.6x10 -19 Coulombs.

Chapter 21, Electric Charge, and electric Field. Charles Allison © Electric Charge, q or Q Charge comes in two types 1e = 1.6x Coulombs.
Electric Forces and Fields Chapter 20. Charges and Forces Experiment 1 Nothing happens Nothing happens The objects are neutral The objects are neutral.

Electric Forces and Fields Chapter 20. Charges and Forces Experiment 1 Nothing happens Nothing happens The objects are neutral The objects are neutral.
Electrostatics …the branch of physics that studies the nature of charges that’s not moving.

Electrostatics …the branch of physics that studies the nature of charges that’s not moving.
CHAPTER-21 Electric Charges. CHAPTER-21 Electric Charges Topics to be covered:  Types of electric charge  Forces among two charges (Coulomb’s law) 

CHAPTER-21 Electric Charges. CHAPTER-21 Electric Charges Topics to be covered:  Types of electric charge  Forces among two charges (Coulomb’s law) 
Electric Forces Physics A Static #3.

Electric Forces Physics A Static #3.
Chapter 17 Electric Forces and Fields 17-1 Electric Charge Properties of Electric Charge  Ancient Greeks discovered static charge when they observed amber.

Chapter 17 Electric Forces and Fields 17-1 Electric Charge Properties of Electric Charge  Ancient Greeks discovered static charge when they observed amber.
1 Physics Chapter 32 Electrostatics Personal Ads : e - rich…seeks e - poor for bonding, conducting, and long term relationship. Resistance a plus.

1 Physics Chapter 32 Electrostatics Personal Ads : e - rich…seeks e - poor for bonding, conducting, and long term relationship. Resistance a plus.
Voltage in Electrical Systems

Voltage in Electrical Systems
Electrification - the process that produces electric charges on an object. Electrostatic charge - a charge confined to an object and not moving. Static.

Electrification - the process that produces electric charges on an object. Electrostatic charge - a charge confined to an object and not moving. Static.

Similar presentations

Ads by Google