Search for tag: "omega"

86 Media

Simulation for High Performance Trauma Teams:… duration 42 minutes 27 seconds Simulation for High Performance Trauma Teams:… Simulation for High Performance Trauma Teams: Optimizing the Pediatric Code Omega Response using In-Situ Simulation \| Dr. Meagan Doyle \| February 9, 2023	Simulation for High Performance Trauma Teams: Optimizing the Pediatric Code Omega Response using In-Situ Simulation \| Dr. Meagan Doyle \| February 9, 2023 Dr. Meagan Doyle is an Assistant Clinical Professor for the Department of Pediatrics. She was part of the third graduating class from NOSM, Thunder Bay, and spent her third-year clerkship in Sioux… pediatrics mcmaster university mcmaster children's hospital simulations trauma teams code omega team simulation systems patient performance safety care blood lot things room protocol role space equipment emergency culture transfusion From Johna Autencio 38 plays 0
Scanned Notes with Voiceover duration 30 seconds Scanned Notes with Voiceover Scanned Notes with Voiceover	Scanned Notes with Voiceover domain omega phasor field frequency quantity method quantities sinusoidal fact answer groups approaches hft exponents t. tv From Roshan Bashar 4 plays 0
PHYSICS739_approximation_Methods3 duration 1 hour 9 minutes PHYSICS739_approximation_Methods3 PHYSICS739_approximation_Methods3	PHYSICS739_approximation_Methods3 Showed how to find transition amplitudes from the Dyson series. Began analyzing 1st order perturbations constant in time except for being switched on at t=t0. picture interaction schrodinger function delta perturbation energy operator probability times evolution continuum frequency omega equation transition series thing hamiltonian matrix From DUNCAN O'DELL 2 plays 0
PHYS739_Propagator3 duration 1 hour 15 minutes PHYS739_Propagator3 PHYS739_Propagator3	PHYS739_Propagator3 We calculated the propagator for the simple harmonic oscillator using the Feynman path integral approach. path sine omega minus things thing delta action prime piece phi term times function x. points mechanics position oscillator cos From DUNCAN O'DELL 1 plays 0 Usage Rights None (All Rights Reserved)
PHYS739_approximation_Methods4 duration 1 hour 33 minutes PHYS739_approximation_Methods4 PHYS739_approximation_Methods4	PHYS739_approximation_Methods4 Generalized our treatment of first order transitions to include a slow switch on of the perturbation. energy function times things thing bar width delta particle nucleus size momentum probability rate density omega box energies transition angle From DUNCAN O'DELL 2 plays 0 Usage Rights None (All Rights Reserved)
PHYS4F03_class30 duration 48 minutes 1 second PHYS4F03_class30 PHYS4F03_class30	PHYS4F03_class30 Scattering theory: covered the basic setup of a scattering experiment, including the differential scattering cross-section, asymptotic wavefunction, and the scattering amplitude (L21ScatteringTheory1) angle scattering wave particles potential sphere theta sigma cross omega angles distance target incident things thing sine ring function sort From DUNCAN O'DELL 3 plays 0
PHYS4F03_class28 duration 44 minutes 42 seconds PHYS4F03_class28 PHYS4F03_class28	PHYS4F03_class28 Worked through an example of Berry's phase: a spin in a rotating magnetic field (L20BerryPhase) field phase term theta surface space circuit path vector electromagnetism potential gradient phi direction fields spin omega expression point component From DUNCAN O'DELL 4 plays 0
PHYS-4F03-class26 duration 52 minutes 38 seconds PHYS-4F03-class26 PHYS-4F03-class26	PHYS-4F03-class26 Finished the slides on the adiabatic approximation (L18Adiabatic) omega term equation psi energy phase frequency hamiltonian field expression times change spin thing eigenstate eigenstates n. schrodinger difference derivative From DUNCAN O'DELL 6 plays 0
PHYS-4F03-class24 duration 49 minutes 31 seconds PHYS-4F03-class24 PHYS-4F03-class24	PHYS-4F03-class24 Used first order time-dependent perturbation to study the interaction between atoms and incoherent light (L17T_dep_PT_part3) energy field frequency density atom atoms rate formula light emission transition frequencies perturbation omega directions decay radiation theory sort photon From DUNCAN O'DELL 4 plays 0
PHYS-4F03-class23 duration 53 minutes 53 seconds PHYS-4F03-class23 PHYS-4F03-class23	PHYS-4F03-class23 Finished going through the slides L17T_dep_PT_part2 which included perturbations with harmonic time dependence, including the illumination of an atom by a laser. Started the next set of slides… field atom energy perturbation frequency omega light wave dipole times theory matrix direction form charge fact transition frequencies function probability From DUNCAN O'DELL 5 plays 0
PHYS-4F03-class22 duration 54 minutes 46 seconds PHYS-4F03-class22 PHYS-4F03-class22	PHYS-4F03-class22 Started the set of slides L17T_dep_PT_part2 which applies time dependent perturbation theory to various examples. omega function energy delta sort probability frequency thing perturbation expression modulus difference times fourier gaussian sine width pi term infinity From DUNCAN O'DELL 4 plays 0
PHYS-4F03-class20 duration 49 minutes 55 seconds PHYS-4F03-class20 PHYS-4F03-class20	PHYS-4F03-class20 Started time-dependent perturbation theory (L16T_dep_PT_part1) hamiltonian spin perturbation equation problem energy omega field piece dependence bar matrix operator theory term resonance pieces coefficients schrodinger minus From DUNCAN O'DELL 8 plays 0
45_Back-to-Back Motor Drive Problem_Part3 duration 7 minutes 46 seconds 45_Back-to-Back Motor Drive Problem_Part3 45_Back-to-Back Motor Drive Problem_Part3	45_Back-to-Back Motor Drive Problem_Part3 torque a1 load times omega equation side average expression speed drive dc meters newton model cosine friction difference motor amps From BERKER BILGIN 74 plays 0
42_Tutorial_PMSM_Operational Characteristics_Part2 duration 10 minutes 16 seconds 42_Tutorial_PMSM_Operational Characteristics_Part2 42_Tutorial_PMSM_Operational Characteristics_Part2	42_Tutorial_PMSM_Operational Characteristics_Part2 point speed torque voltage current characteristics axis circle points ellipse motor omega curve edtpa t3 operation a. control is1 omega-3 From BERKER BILGIN 75 plays 0
36_PMSM_Operational Characteristics_Part5 duration 5 minutes 21 seconds 36_PMSM_Operational Characteristics_Part5 36_PMSM_Operational Characteristics_Part5	36_PMSM_Operational Characteristics_Part5 point torque voltage motor vector t3 speed current circle trajectory components contour omega expression operation stator speeds omega4 curve edtpa From BERKER BILGIN 59 plays 0
36_PMSM_Operational Characteristics_Part4 duration 5 minutes 44 seconds 36_PMSM_Operational Characteristics_Part4 36_PMSM_Operational Characteristics_Part4	36_PMSM_Operational Characteristics_Part4 speed point voltage torque circle motor dc omega control ellipse ellipses omega-3 a. linkage flux components drive omega1 contour t3 From BERKER BILGIN 62 plays 0
35_Tutorial_PMSM Problems_Part5 duration 7 minutes 36 seconds 35_Tutorial_PMSM Problems_Part5 35_Tutorial_PMSM Problems_Part5	35_Tutorial_PMSM Problems_Part5 axis phase voltage torque iq omega components motor dx current component angle magnitude magnet degrees vector lambda amps rs icu From BERKER BILGIN 77 plays 0
35_Tutorial_PMSM Problems_Part4 duration 5 minutes 38 seconds 35_Tutorial_PMSM Problems_Part4 35_Tutorial_PMSM Problems_Part4	35_Tutorial_PMSM Problems_Part4 axis voltage omega iq angle flux phase linkage dx degrees vector stator motor magnet vd lambda emf magnitude sum component From BERKER BILGIN 81 plays 0
35_Tutorial_PMSM Problems_Part2 duration 2 minutes 32 seconds 35_Tutorial_PMSM Problems_Part2 35_Tutorial_PMSM Problems_Part2	35_Tutorial_PMSM Problems_Part2 voltage linkage flux omega times axis phase magnet question radians pairs pole characteristics load root motor rabbi logs seconds speed From BERKER BILGIN 87 plays 0
35_Tutorial_PMSM Problems_Part1 duration 6 minutes 37 seconds 35_Tutorial_PMSM Problems_Part1 35_Tutorial_PMSM Problems_Part1	35_Tutorial_PMSM Problems_Part1 phase lambda voltage axis condition load linkage flux angle frame magnet iq motor vd reference variables question current magnitude omega From BERKER BILGIN 110 plays 0
35_Practice Problem_Solutions_Part4 duration 7 minutes 53 seconds 35_Practice Problem_Solutions_Part4 35_Practice Problem_Solutions_Part4	35_Practice Problem_Solutions_Part4 iq torque phase omega axis times rpm voltage degrees angle amps volts meters lambda vd vector sid pairs pole magnitude From BERKER BILGIN 3 plays 0
35_Practice Problem_Solutions_Part3 duration 6 minutes 33 seconds 35_Practice Problem_Solutions_Part3 35_Practice Problem_Solutions_Part3	35_Practice Problem_Solutions_Part3 iq lambda omega voltage times axis rpm phase degrees vd torque angle volts pairs pole current question vector minus magnet From BERKER BILGIN 6 plays 0
35_Practice Problem_Solutions_Part2 duration 7 minutes 10 seconds 35_Practice Problem_Solutions_Part2 35_Practice Problem_Solutions_Part2	35_Practice Problem_Solutions_Part2 load phase lambda flux omega voltage linkage degrees maximum condition position waveforms pairs pole times peak vd equals motor rotor From BERKER BILGIN 3 plays 0
34_PMSM_Torque_Voltage_Equations_FOC_Part4 duration 4 minutes 41 seconds 34_PMSM_Torque_Voltage_Equations_FOC_Part4 34_PMSM_Torque_Voltage_Equations_FOC_Part4	34_PMSM_Torque_Voltage_Equations_FOC_Part4 transformations phase lambda axis flux iq voltages torque times transformation linkages inductance linkage dx omega pairs pole rotor motor amps From BERKER BILGIN 70 plays 0