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... Adopt ATS structure, users can customize different configuration as required: According to the size of measured sample to determine electromagnet size and correspondent test source power; Select different measuring coil and probe according to testing method; Determine whether selecting jig according ...
... Adopt ATS structure, users can customize different configuration as required: According to the size of measured sample to determine electromagnet size and correspondent test source power; Select different measuring coil and probe according to testing method; Determine whether selecting jig according ...
Test - Scioly.org
... 23. The magnetic field B inside a long ideal solenoid is independent of: A. the current B. the cross-sectional area C. the direction of the current D. the spacing of the windings E. the core material 24. Magnetic field lines inside the electromagnet shown are: A. counterclockwise circles as viewed f ...
... 23. The magnetic field B inside a long ideal solenoid is independent of: A. the current B. the cross-sectional area C. the direction of the current D. the spacing of the windings E. the core material 24. Magnetic field lines inside the electromagnet shown are: A. counterclockwise circles as viewed f ...
Ivan Lomachenkov
... the ions of Na. The result is vr~ I/n, I- the current, n- the concentration of the ions. For the current I~ 0.1 A we have vr~ 10-7m/s. • We can also estimate the circular component of the velocity: v~ nvrB/, where - the viscosity of the solution. For inductance B~10-2 T and ~10-3kg/(m·s) the re ...
... the ions of Na. The result is vr~ I/n, I- the current, n- the concentration of the ions. For the current I~ 0.1 A we have vr~ 10-7m/s. • We can also estimate the circular component of the velocity: v~ nvrB/, where - the viscosity of the solution. For inductance B~10-2 T and ~10-3kg/(m·s) the re ...
A Hands-on introduction to Geant4
... • G4FieldManager stores a pointer to a G4Field object that describes a field in a detector (magnetic, electric, other) • It stores a pointer to a ChordFinder object that can propagate particles in this field. The geometrical “advancement” of a track is handled by this ChordFinder object • The ChordF ...
... • G4FieldManager stores a pointer to a G4Field object that describes a field in a detector (magnetic, electric, other) • It stores a pointer to a ChordFinder object that can propagate particles in this field. The geometrical “advancement” of a track is handled by this ChordFinder object • The ChordF ...
N2-1,2,3 Study Guide
... What are the properties of magnets? Magnetic Force, Magnetic Field, and they have two poles (North and South) In order for a material to be magnetic, it depends on the materials_Atoms. What can be done to a magnet to cause it to lose it’s magnetic properties? High temperatures & dropping it really h ...
... What are the properties of magnets? Magnetic Force, Magnetic Field, and they have two poles (North and South) In order for a material to be magnetic, it depends on the materials_Atoms. What can be done to a magnet to cause it to lose it’s magnetic properties? High temperatures & dropping it really h ...
EMI (97-03)
... The U-shaped conductor lies perpendicular to a uniform magnetic field B with magnitude B = 0.60 T, directed into the page. We lay a metal rod with length L = 0.10 m across the two arms of the conductor, forming a conducting loop, and move the rod to the right with constant speed v = 2.5 m/s. What is ...
... The U-shaped conductor lies perpendicular to a uniform magnetic field B with magnitude B = 0.60 T, directed into the page. We lay a metal rod with length L = 0.10 m across the two arms of the conductor, forming a conducting loop, and move the rod to the right with constant speed v = 2.5 m/s. What is ...
Physics 2102 Lecture 15
... We know that an electric fields exists because it accelerates electric charges, with a force independent of the velocity of the charge, proportional to the electric charge: FE = qE We know that a magnetic field exists because it accelerates electric charges in a direction perpendicular to the veloci ...
... We know that an electric fields exists because it accelerates electric charges, with a force independent of the velocity of the charge, proportional to the electric charge: FE = qE We know that a magnetic field exists because it accelerates electric charges in a direction perpendicular to the veloci ...
Magnetochemistry
Magnetochemistry is concerned with the magnetic properties of chemical compounds. Magnetic properties arise from the spin and orbital angular momentum of the electrons contained in a compound. Compounds are diamagnetic when they contain no unpaired electrons. Molecular compounds that contain one or more unpaired electrons are paramagnetic. The magnitude of the paramagnetism is expressed as an effective magnetic moment, μeff. For first-row transition metals the magnitude of μeff is, to a first approximation, a simple function of the number of unpaired electrons, the spin-only formula. In general, spin-orbit coupling causes μeff to deviate from the spin-only formula. For the heavier transition metals, lanthanides and actinides, spin-orbit coupling cannot be ignored. Exchange interaction can occur in clusters and infinite lattices, resulting in ferromagnetism, antiferromagnetism or ferrimagnetism depending on the relative orientations of the individual spins.