'Right hand rule' diaporamas de présentation

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Today’s Lecture

Today’s Lecture

Today’s Lecture 5) Wed, Oct 8: Product operators I (tools to simplify the quantum mechanics) a. RF pulses b. Chemical shift Download Mathematica Player and Bloch Equation demo http://demonstrations.wolfram.com/MagneticResonanceAndBlochEquations/

By johana
(347 views)

Angular Kinematics

Angular Kinematics

Angular Kinematics. Linear kinematics does not handle curving trajectories well Always have acceleration due to changing direction Need to know radius of turn Want to isolate the motion of curving trajectories. A straight line has an always changing “radius” from a single point.

By sandra_john
(385 views)

Ampere’s Law

Ampere’s Law

Ampere’s Law. Outline. Introduce Ampere’s Law as an analogy to Gauss’ Law. Define Ampere’s Law. Show how to use Ampere’s Law for cases with symmetry. Student Objectives. Recognise Ampere’s Law to be analogous to Gauss’ Law.

By emily
(464 views)

Lecture 8 Examples of Magnetic Fields

Lecture 8 Examples of Magnetic Fields

Lecture 8 Examples of Magnetic Fields. Chapter 19.7  19.10. Outline. Long Wire and Ampere’s Law Two Parallel Contours Solenoid. Magnetic Field of a Wire.

By liam
(302 views)

UNIT FIVE: Electricity and Magnetism

UNIT FIVE: Electricity and Magnetism

UNIT FIVE: Electricity and Magnetism. Chapter 16 Electricity Chapter 17 Magnetism. Chapter Seventeen: Magnetism. 17.1 Properties of Magnets 17.2 Electromagnets 17.3 Electric Motors and Generators 17.4 Generating Electricity. Chapter 17.2 Learning Goals. Define electromagnet.

By adora
(260 views)

Magnetism

Magnetism

Magnetism. We are probably all familiar with the fact that magnets repel and attract each other. This is similar to electric charges. This suggests that we can propose the following law (like Newton’s Law of Gravity and Coulomb’s Law for Electricity): F magnetic = X p 1 p 2 / r 12 2

By arnon
(316 views)

ElectroMagnetic Induction

ElectroMagnetic Induction

ElectroMagnetic Induction. AP Physics B. What is E/M Induction?. Electromagnetic Induction is the process of using magnetic fields to produce voltage, and in a complete circuit, a current. .

By cher
(976 views)

Creating magnetic fields

Creating magnetic fields

Creating magnetic fields. Gravitational fields acted on masses, and masses set up gravitational fields: F gravity = mg where g = GM/r 2 Electric fields acted on charges, and charges set up electric fields: F electric = qE where E = kQ/r 2

By paytah
(294 views)

Chapter 14: Magnetism

Chapter 14: Magnetism

Chapter 14: Magnetism. Brent Royuk Phys-110 Concordia University. Magnets. Magnets are caused by moving charges. Permanent Magnets vs. Electromagnets Magnets always have two poles, north and south. Like poles repel, opposites attract. Magnets.

By teague
(310 views)

Physics of Rolling Ball Coasters

Physics of Rolling Ball Coasters

Physics of Rolling Ball Coasters. Cross Product Torque Inclined Plane Inclined Ramp Curved Path Examples. Cross Product (1). The Cross Product of two three-dimensional vectors a = <a 1 ,a 2 ,a 3 > and b = <b 1 ,b 2 ,b 3 > is defined as follows:

By lexiss
(153 views)

Electronics Review

Electronics Review

EETS7320 SMU Session 4, Fall 2007 (print slides only, no notes pages) ‏. Electronics Review. Electric and Magnetic Fields. When electric charges or currents (moving electric charges) interact at a distance, there are forces acting on the charges and currents.

By erik
(188 views)

Lithuanian ASPECT content

Lithuanian ASPECT content

Lithuanian ASPECT content. Asta Buineviciute Centre of Information Technologies in Education Copenhagen, Denmark – Oct . 7 , 20 10. Numbers. We have: About 1.300 schools About 39.000 teachers Moren than 440.000 pupils About 95% of teachers use ICT. Lithuanian content.

By terry
(156 views)

MIT Class: Sources of Magnetic Fields Creating Fields: Biot-Savart Experiment: Magnetic Fields 	Ampere’s Law

MIT Class: Sources of Magnetic Fields Creating Fields: Biot-Savart Experiment: Magnetic Fields Ampere’s Law

Workshop: Using Visualization in Teaching Introductory E&M AAPT National Summer Meeting, Edmonton, Alberta, Canada. Organizers: John Belcher, Peter Dourmashkin, Carolann Koleci, Sahana Murthy.

By euphemia
(299 views)

Dynamics of Rotational Motion

Dynamics of Rotational Motion

Dynamics of Rotational Motion. Cross Product. Cross Product.

By ashling
(137 views)

Rotation and Torque

Rotation and Torque

Rotation and Torque. Lecture 09 Thursday: 12 February 2004. ROTATION: DEFINITIONS. Angular position: q Angular displacement: q 2 – q 1 = D q. Instantaneous Angular velocity: . What is the direction of the angular velocity?. Use your right hand

By oya
(187 views)

Chapter 19

Chapter 19

Chapter 19. Magnetism. Magnets have two ends – poles – called north and south. Like poles repel; unlike poles attract. If you cut a magnet in half, you don’t get a north pole and a south pole – you get two smaller magnets. Types of Magnetic Materials.

By cole
(261 views)

Lecture 8 Magnetic Fields Chp. 29

Lecture 8 Magnetic Fields Chp. 29

Lecture 8 Magnetic Fields Chp. 29. Cartoon Magnesia, Bar Magnet with N/S Poles, Right Hand Rule Topics Magnetism is likable, Compass and diclinometer, Permanent magnets Magnetic field lines, Force on a moving charge, Right hand rule, Non-uniform magnetic field

By tad
(233 views)

Ampere’s Law

Ampere’s Law

Ampere’s Law. PH 203 Professor Lee Carkner Lecture 17. Test 2 on Monday. Covers everything since last test through Wednesday 10 multiple choice (20 points) 4 problems (20 points each) Equations and constants given but not labeled Bring calculator No PDA’s, no cellphones, no sharing

By dior
(220 views)

EEE 302 Electrical Networks II

EEE 302 Electrical Networks II

EEE 302 Electrical Networks II. Dr. Keith E. Holbert Summer 2001. Magnetically Coupled Networks. A new four-terminal element, the transformer , is introduced in this chapter A transformer is composed of two closely spaced inductors, that is, two or more magnetically coupled coils

By bud
(153 views)

Chapter 20 Electricity Chapter 21 Magnetism

Chapter 20 Electricity Chapter 21 Magnetism

Chapter 20 Electricity Chapter 21 Magnetism. Prentice Hall 2006. Assignments for Chapter 20. Define vocabulary terms in 20.1-3 (24) Write the key concepts in 20.1-3 (14) 611/1-3 Math Practice re Power 613/5-8

By jui
(182 views)

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