Presentation is loading. Please wait.

Presentation is loading. Please wait.

Motion of a Charged Particle in an Electric Field Physics 12.

Published bySharyl Hunter Modified over 8 years ago

Similar presentations

Presentation on theme: "Motion of a Charged Particle in an Electric Field Physics 12."— Presentation transcript:

1 Motion of a Charged Particle in an Electric Field Physics 12

2 Joke of the day:

3 Review:

4 1. If you have a charge of 1.0C, how many electrons have been removed from the object? 2. What voltage is created if a charged particle is placed 2.5cm from a -1.0mC charge? 3. What electric field is created between two plates, separated by 5.0cm with a voltage of 250V? 6.25x10 18 -360 000 000V 5 000N/C

5 Answers: 1. 6.25x10 18 2. -360 000 000V 3. 5 000N/C

6 Electron in a uniform electric field: 1. Draw a uniform electric field (contains a positive and negative plate) where the field is directed into the ground 2. Draw a free body diagram for an electron placed in a uniform electric field where the field is directed into the ground FeFe FgFg

7 Consider: What happens when a charged particle is placed (with zero initial velocity) inside a uniform electric field? Draw a picture to show an electron placed at the negative plate that is creating a uniform field FeFe

8 What if we wanted to find the velocity of the electron? A derivation…..using formulas you know! V=Ed, E =F onq, F=ma, Vf 2 = V o 2 +2ad q Reminder: m e = 9.1x10 -31 kg, q e = 1.6x10 -19 C

9 Example #1: If an field is created using 250V with plates separated by 1.0cm, determine how fast the electron is moving when it gets to the positive plate (ignore gravity)?

10 Problem #1: You’ve been hired by Stanford to determine the voltage required to accelerate an electron or positron to 0.95c a. What voltage is required if the accelerator is 3.2km long? b. Find the electric field required in order to accomplish this final velocity for one of the particles. Answers: 2.3x10 5 V, 72 N/C

11 Crooke’s Tube: Invented by Sir William Crookes (1875) consisting essentially of a sealed glass tube from which nearly all the air has been removed and through the walls of which are passed two electrodes. When a high voltage is applied between the two electrodes, electrons are emitted from the cathode and are accelerated toward the anode. Many of these electrons (aka cathode rays), miss the anode and strike instead the glass wall of the tube, causing it to exhibit fluorescence.

12 Review: Loss of potential energy is equal to a gain in kinetic energy -ΔPe = Δke Electric potential (V) is a type of potential energy! We can use this to calculate the velocity of particles…. Ke = ½ mv 2

13 Problem #2: a. How fast would an electron be moving in Crooke’s tube if: V = 5000V d = 0.025m b. How much kinetic energy would the electrons have? Answers: 4.2x10 7 m/s, 8.0 x10 -16 J

14 LHC Interested?? Large Hadron Collider http://www.youtube.com/watch?v=TIeY7 Zj27IM http://www.youtube.com/watch?v=TIeY7 Zj27IM

15 Problem #3: The first stage of the LHC accelerates protons to.75c determine: a. The voltage required if the electric field exists over 1.5km b. The electric field required Answers: 1.4x10 5 V, 96 N/C

16 To do: In class Assignment

Download ppt "Motion of a Charged Particle in an Electric Field Physics 12."

Similar presentations

Cathode Ray Tubes Contents: How they work Solving problems Accelerated ions Projectile motion Whiteboard.

Cathode Ray Tubes Contents: How they work Solving problems Accelerated ions Projectile motion Whiteboard.
The Cathode Ray Tube (CRT). How it works…. Electrons are boiled off in the cathode (negative terminal) Electrons are sped up through accelerating.

The Cathode Ray Tube (CRT). How it works…. Electrons are boiled off in the cathode (negative terminal) Electrons are sped up through accelerating.
Electric Potential AP Physics: M. Blachly Textbook: 17:1-3.

Electric Potential AP Physics: M. Blachly Textbook: 17:1-3.
Voltage. Volt  The electric potential is related to the potential energy. Compare to test charge  The unit of electric potential is the volt (V). 1.

Voltage. Volt  The electric potential is related to the potential energy. Compare to test charge  The unit of electric potential is the volt (V). 1.
General Physics 2Electric Potential1 As with mechanics, energy is a useful quantity in studying electric forces electric potential or potential electric.

General Physics 2Electric Potential1 As with mechanics, energy is a useful quantity in studying electric forces electric potential or potential electric.
Norah Ali Al-moneef king saud university

Norah Ali Al-moneef king saud university
Honors Physics Mr. Payne April 30, 2012. Today: Uniform Fields – Gravitational and Electrical – Homework: Problems 5, 6, 11, 12, page 489 – (Problems.

Honors Physics Mr. Payne April 30, Today: Uniform Fields – Gravitational and Electrical – Homework: Problems 5, 6, 11, 12, page 489 – (Problems.
Electric Potential Energy Electric Potential Energy results when we move, push, or force charged particles against their will. + + We have to do work to.

Electric Potential Energy Electric Potential Energy results when we move, push, or force charged particles against their will. + + We have to do work to.
Electrical Energy and Electric Potential

Electrical Energy and Electric Potential
Chapter 22 Gauss’s Law. Charles Allison © 2000 21-10 Motion of a Charged Particle in an Electric Field The force on an object of charge q in an electric.

Chapter 22 Gauss’s Law. Charles Allison © Motion of a Charged Particle in an Electric Field The force on an object of charge q in an electric.
MAGNETISM MAMBO.

MAGNETISM MAMBO.
Whiteboard Warmup! A beam of electrons is being fired to the right, when a magnet is pointed toward the beam and brought closer. As a result, the beam.

Whiteboard Warmup! A beam of electrons is being fired to the right, when a magnet is pointed toward the beam and brought closer. As a result, the beam.
Chapter 17 Electric Potential.

Chapter 17 Electric Potential.
to Atomic and Nuclear Physics

to Atomic and Nuclear Physics
Electric Fields What is an Electric Field?. Answer Me!!! Explain what you think this drawing means? What is the significance of the arrows?

Electric Fields What is an Electric Field?. Answer Me!!! Explain what you think this drawing means? What is the significance of the arrows?
Electric Potential, Electric Energy and Capacitance

Electric Potential, Electric Energy and Capacitance
Electric Potential and Electric Energy Chapter 17.

Electric Potential and Electric Energy Chapter 17.
Accelerating Charge Through A Potential Difference.

Accelerating Charge Through A Potential Difference.
Kinetic Energy Contents: Rest Energy /Moving energy.

Kinetic Energy Contents: Rest Energy /Moving energy.
Electrical Energy and Potential IB Physics. Electric Fields and WORK In order to bring two like charges near each other work must be done. In order to.

Electrical Energy and Potential IB Physics. Electric Fields and WORK In order to bring two like charges near each other work must be done. In order to.

Similar presentations

Ads by Google