Presentation is loading. Please wait.

Presentation is loading. Please wait.

A proton is accelerated from rest through a potential difference of V

Published byJan Esser Modified over 6 years ago

Similar presentations

Presentation on theme: "A proton is accelerated from rest through a potential difference of V"— Presentation transcript:

1 A proton is accelerated from rest through a potential difference of V
A proton is accelerated from rest through a potential difference of V. The proton then enters a uniform magnetic field that is perpendicular to its velocity. In the magnetic field, the proton follows a circular path with a radius R. (a) Determine the speed, v, of the proton when it enters the magnetic field. (b) Determine the magnitude of the magnetic field and the period, T, of the proton’s motion in the magnetic field. (c) Suppose the proton exits the magnetic field region after it has completed a half-circular path. What is the proton’s speed when it exits the magnetic field region? (d) What electric field would then be required to give the proton a new speed v1 > v in a distance D?

2 A proton is accelerated from rest through a potential difference of V
A proton is accelerated from rest through a potential difference of V. The proton then enters a uniform magnetic field that is perpendicular to its velocity. In the magnetic field, the proton follows a circular path with a radius R. (a) Determine the speed, v, of the proton when it enters the magnetic field.

3 A proton is accelerated from rest through a potential difference of V
A proton is accelerated from rest through a potential difference of V. The proton then enters a uniform magnetic field that is perpendicular to its velocity. In the magnetic field, the proton follows a circular path with a radius R. (b) Determine the magnitude of the magnetic field and the period, T, of the proton’s motion in the magnetic field.

4 A proton is accelerated from rest through a potential difference of V
A proton is accelerated from rest through a potential difference of V. The proton then enters a uniform magnetic field that is perpendicular to its velocity. In the magnetic field, the proton follows a circular path with a radius R. (c) Suppose the proton exits the magnetic field region after it has completed a half-circular path. What is the proton’s speed when it exits the magnetic field region?

5 A proton is accelerated from rest through a potential difference of V
A proton is accelerated from rest through a potential difference of V. The proton then enters a uniform magnetic field that is perpendicular to its velocity. In the magnetic field, the proton follows a circular path with a radius R. (d) Suppose the proton exits the magnetic field region after it has completed a half-circular path. What electric field would then be required to give the proton a new speed v1 > v in a distance D?

Download ppt "A proton is accelerated from rest through a potential difference of V"

Similar presentations

Electricity and Magnetism

Electricity and Magnetism
Magnetic Fields and Forces AP Physics B. Facts about Magnetism Magnets have 2 poles (north and south) Like poles repel Unlike poles attract Magnets create.

Magnetic Fields and Forces AP Physics B. Facts about Magnetism Magnets have 2 poles (north and south) Like poles repel Unlike poles attract Magnets create.
1.Moving electric charges produce magnetic fields, B B measured in Tesla (1T = 10 4 Gauss) Earth’s B field ~ 0.5 Gauss Largest permanent magnet.

1.Moving electric charges produce magnetic fields, B B measured in Tesla (1T = 10 4 Gauss) Earth’s B field ~ 0.5 Gauss Largest permanent magnet.
Magnetic Force. Moving Charge  A charge in an electric field is subject to a force. Charge at rest or in motion In the direction of field  A charge.

Magnetic Force. Moving Charge  A charge in an electric field is subject to a force. Charge at rest or in motion In the direction of field  A charge.
Electricity&… Magnetism Review of Coulomb`s Force,Magnetic Fields and Magnetic Force Lecture 22 Monday: 5 April 2004.

Electricity&… Magnetism Review of Coulomb`s Force,Magnetic Fields and Magnetic Force Lecture 22 Monday: 5 April 2004.
Chapter 8: Rotational Kinematics Lecture Notes

Chapter 8: Rotational Kinematics Lecture Notes
1- A long straight wire carries current I = 10 A pointing into the page at the origin. In addition to the magnetic field due to the wire, there is a uniform.

1- A long straight wire carries current I = 10 A pointing into the page at the origin. In addition to the magnetic field due to the wire, there is a uniform.
uniform electric field region

uniform electric field region
The Magnetic Field The force on a charge q moving with a velocity The magnitude of the force.

The Magnetic Field The force on a charge q moving with a velocity The magnitude of the force.
Experimental Measurement of the Charge to Mass Ratio of the Electron Stephen Luzader Physics Department Frostburg State University Frostburg, MD.

Experimental Measurement of the Charge to Mass Ratio of the Electron Stephen Luzader Physics Department Frostburg State University Frostburg, MD.
Centripetal force on charges in magnetic fields

Centripetal force on charges in magnetic fields
Accelerating Charge Through A Potential Difference.

Accelerating Charge Through A Potential Difference.
Lecture 16 Magnetic Fields& Force

Lecture 16 Magnetic Fields& Force
The Magnetic Field The force on a charge q moving with a velocity The magnitude of the force.

The Magnetic Field The force on a charge q moving with a velocity The magnitude of the force.
Magnetic Field Strength and Magnetic Force O An electrically charged particle moving in a magnetic field may experience a magnetic force. O Magnetic Field.

Magnetic Field Strength and Magnetic Force O An electrically charged particle moving in a magnetic field may experience a magnetic force. O Magnetic Field.
General Physics II, Additional Questions, By/ T.A. Eleyan 1 Additional Questions Lec. 15,16.

General Physics II, Additional Questions, By/ T.A. Eleyan 1 Additional Questions Lec. 15,16.
Wed. Feb. 11 – Physics Lecture #29 Magnetic Forces 1. Magnetic Forces on Charged Particles 2. Motion in Magnetic Fields 3. Magnetic Forces on Current-Carrying.

Wed. Feb. 11 – Physics Lecture #29 Magnetic Forces 1. Magnetic Forces on Charged Particles 2. Motion in Magnetic Fields 3. Magnetic Forces on Current-Carrying.
المحاضرة الخامسة. 4.1 The Position, Velocity, and Acceleration Vectors The position of a particle by its position vector r, drawn from the origin of some.

المحاضرة الخامسة. 4.1 The Position, Velocity, and Acceleration Vectors The position of a particle by its position vector r, drawn from the origin of some.
A permanent magnet has a north magnetic pole and a south magnetic pole. Like poles repel; unlike poles attract.

A permanent magnet has a north magnetic pole and a south magnetic pole. Like poles repel; unlike poles attract.
The force on a charge q moving with a velocity The magnitude of the force.

The force on a charge q moving with a velocity The magnitude of the force.

Similar presentations

Ads by Google