Presentation is loading. Please wait.

Presentation is loading. Please wait.

J. Velkovska1 Lecture 17: Magnetic field sources. Ampere’s law PHYS 117B.02, Feb-15-08.

Published byTheodore Sanders Modified over 8 years ago

Similar presentations

Presentation on theme: "J. Velkovska1 Lecture 17: Magnetic field sources. Ampere’s law PHYS 117B.02, Feb-15-08."— Presentation transcript:

1 J. Velkovska1 Lecture 17: Magnetic field sources. Ampere’s law PHYS 117B.02, Feb-15-08

2 J. Velkovska 2 Analogies between the electric and magnetic fields on the axis of the dipole For highly symmetric configurations: easy way to get E is from Gauss’s Law ??? Principle of superposition+ Coulomb’s law or Biot-Savart’s law: always works, but may require complicated integrals Ampere’s law

3 J. Velkovska 3 Line integrals: evaluating the magnetic field along the line

4 J. Velkovska 4 Easy configurations to evaluate line integrals A straight wire should be easy

5 J. Velkovska 5 We found B using Biot-Savart’s law already. Now, let’s do it (on the blackboard) using Ampere’s law Outside the wire Inside the wire

6 J. Velkovska 6 Magnetic Field Lines for a magnetic dipole Magnetic field lines go N->S Use right hand rule to determine the direction of the field from the direction of the current Doesn’t have enough symmetry to use Ampere’s law

7 J. Velkovska 7 What happens if we add more loops ? The magnetic field of a solenoid

8 J. Velkovska 8 Some magnets in real life: the PHENIX magnets bend particle trajectory to provide momentum measurement The Central Magnet is 9 meters tall and weighs nearly 500 tons. The Int(B.dl) at 90 degrees is 0.78 Tesla-meters.

9 J. Velkovska 9 The PHENIX experiment magnet coils One of the central magnet coils under A LOT of steel The coils before installation

10 J. Velkovska 10 The solenoidal magnet of the STAR detector

11 J. Velkovska 11 The particle tracks: Au+Au colliding head on at 200 GeV in c.m. system or in p+p collisions UA1, 900 GeV

12 J. Velkovska 12 The Relativistic Heavy Ion Collider 2 counter-circulating rings  2.4 miles circumference  1740 super conducting magnets Collides any nucleus on any other Top energies: 200 GeV Au-Au 500 GeV polarized p-p Four experiments:BRAHMS, PHOBOS PHENIX, STAR

13 J. Velkovska 13 The Large Hadron Collider 27 km circumference tunnel 3.8 m. in diameter, buried 50 to 175 m below ground straddles the French-Swiss border to the North-West of Geneva 1232 dipole magnets bend the beam Top energy: 14 TeV for pp, 5.5 TeV PbPb 4 detectors : ALICE, CMS, ATLAS, LHCb

14 J. Velkovska 14 Some pictures from the LHC A magnet going down the shaft. Inside the tunnel. The LHC start-up is in summer 2008 !

15 J. Velkovska 15 The CMS detector: Vanderbilt is involved both in HE and HI side

Download ppt "J. Velkovska1 Lecture 17: Magnetic field sources. Ampere’s law PHYS 117B.02, Feb-15-08."

Similar presentations

Sources of the Magnetic Field

Sources of the Magnetic Field
Highest Energy e + e – Collider LEP at CERN 1989-2000 200 GeV ~4km radius First e + e – Collider ADA in Frascati 1961 0.2 GeV ~1m radius e + e – Colliders.

Highest Energy e + e – Collider LEP at CERN GeV ~4km radius First e + e – Collider ADA in Frascati GeV ~1m radius e + e – Colliders.
The Large Hadron Collider By Kathleen McKay. What is the LHC? The most powerful particle accelerator in the world. A synchrotron (ring-shaped particle.

The Large Hadron Collider By Kathleen McKay. What is the LHC? The most powerful particle accelerator in the world. A synchrotron (ring-shaped particle.
Wednesday, Oct. 26, 2005PHYS 1444-003, Fall 2005 Dr. Jaehoon Yu 1 PHYS 1444 – Section 003 Lecture #16 Wednesday, Oct. 26, 2005 Dr. Jaehoon Yu Charged Particle.

Wednesday, Oct. 26, 2005PHYS , Fall 2005 Dr. Jaehoon Yu 1 PHYS 1444 – Section 003 Lecture #16 Wednesday, Oct. 26, 2005 Dr. Jaehoon Yu Charged Particle.
LHC Large Hadron Collider Richard Lasky – Summer 2010.

LHC Large Hadron Collider Richard Lasky – Summer 2010.
Physics 1502: Lecture 17 Today’s Agenda Announcements: –Midterm 1 distributed today Homework 05 due FridayHomework 05 due Friday Magnetism.

Physics 1502: Lecture 17 Today’s Agenda Announcements: –Midterm 1 distributed today Homework 05 due FridayHomework 05 due Friday Magnetism.
Dale E. Gary Wenda Cao NJIT Physics Department

Dale E. Gary Wenda Cao NJIT Physics Department
Ampere’s Law.

Ampere’s Law.
Physics 121: Electricity & Magnetism – Lecture 10 Carsten Denker NJIT Physics Department Center for Solar–Terrestrial Research.

Physics 121: Electricity & Magnetism – Lecture 10 Carsten Denker NJIT Physics Department Center for Solar–Terrestrial Research.
LHC  Facts and figures  Experiments involved  Aims  How it works.

LHC  Facts and figures  Experiments involved  Aims  How it works.
Biot-Savart Law Moving charge produces a curly magnetic field

Biot-Savart Law Moving charge produces a curly magnetic field
Beam Dynamics Tutorial, L. Rivkin, EPFL & PSI, Prague, September 2014 Synchrotron radiation in LHC: spectrum and dynamics The Large Hadron Collider (LHC)

Beam Dynamics Tutorial, L. Rivkin, EPFL & PSI, Prague, September 2014 Synchrotron radiation in LHC: spectrum and dynamics The Large Hadron Collider (LHC)
Physics for Scientists and Engineers II, Summer Semester 2009 1 Lecture 13: June 19 th 2009 Physics for Scientists and Engineers II.

Physics for Scientists and Engineers II, Summer Semester Lecture 13: June 19 th 2009 Physics for Scientists and Engineers II.
§5.2: Biot-Savart Law Christopher Crawford PHY 417 2015-01-21.

§5.2: Biot-Savart Law Christopher Crawford PHY
Winter wk 6 – Mon.7.Feb.05 Ch.29: Currents cause magnetic fields –Finding B field due to current I –How strong are B fields produced by brains? –Force.

Winter wk 6 – Mon.7.Feb.05 Ch.29: Currents cause magnetic fields –Finding B field due to current I –How strong are B fields produced by brains? –Force.
Ampere’s Law & Gauss’ Law

Ampere’s Law & Gauss’ Law
Lecture No.11 By. Sajid Hussain Qazi. Andre Ampere.

Lecture No.11 By. Sajid Hussain Qazi. Andre Ampere.
Chapter 29 Magnetic Fields due to Currents Key contents Biot-Savart law Ampere’s law The magnetic dipole field.

Chapter 29 Magnetic Fields due to Currents Key contents Biot-Savart law Ampere’s law The magnetic dipole field.
Lecture 9 Magnetic Fields due to Currents Chp. 30 Cartoon - Shows magnetic field around a long current carrying wire and a loop of wire Opening Demo -

Lecture 9 Magnetic Fields due to Currents Chp. 30 Cartoon - Shows magnetic field around a long current carrying wire and a loop of wire Opening Demo -
Ampere’s Law AP Physics C Mrs. Coyle Andre Ampere.

Ampere’s Law AP Physics C Mrs. Coyle Andre Ampere.

Similar presentations

Ads by Google