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ultrasound

MUSE 1.0 Bedside Ultrasound Course for Primary Care Clinicians

Thu, 2017-05-11 (All day) - Fri, 2017-05-12 (All day)
Arnold & Blema Steinberg Medical Simulation Centre : 3575 Parc Avenue, Suite 5640, Montreal, QC , H2X 3P9
Price: Please see registration form

COURSE DESCRIPTION

Introduction

Contact Information

Contact: Geneviève Cyr
Organization: Steinberg Centre for Simulation and Interactive Learning
Email:
Office Phone: 514 398 4175
Source Site: /medsimcentre

MUSE 1.0 Bedside Ultrasound Course for Primary Care Clinicians

Thu, 2017-01-12 (All day) - Fri, 2017-01-13 (All day)
Arnold & Blema Steinberg Medical Simulation Centre : 3575 Parc Avenue, Suite 5640, Montreal, QC , H2X 3P9
Price: Please see registration form

COURSE DESCRIPTION

Introduction

Contact Information

Contact: Geneviève Cyr
Organization: Steinberg Centre for Simulation and Interactive Learning
Email:
Office Phone: 514 398 4175
Source Site: /medsimcentre

MUSE 1.0 Bedside Ultrasound Course for Primary Care Clinicians

Wed, 2016-10-05 (All day) - Thu, 2016-10-06 (All day)
Arnold & Blema Steinberg Medical Simulation Centre : 3575 Parc Avenue, Suite 5640, Montreal, QC , H2X 3P9
Price: Please see registration form

COURSE DESCRIPTION

Introduction

Contact Information

Contact: Geneviève Cyr
Organization: Steinberg Centre for Simulation and Interactive Learning
Email:
Office Phone: 514 398 4175
Source Site: /medsimcentre

MUSE 1.0 Bedside Ultrasound Course for Primary Care Clinicians

Tue, 2016-05-24 (All day) - Wed, 2016-05-25 (All day)
Arnold & Blema Steinberg Medical Simulation Centre : 3575 Parc Avenue, Suite 5640, Montreal, QC , H2X 3P9
Price: Please see registration form

COURSE DESCRIPTION

Introduction

Contact Information

Contact: Geneviève Cyr
Organization: Steinberg Centre for Simulation and Interactive Learning
Email:
Office Phone: 514 398 4175
Source Site: /medsimcentre

Quantum of sonics: Bonded, not stirred

McGill researchers discover new way to bond particles using ultrasound to form new materials
Wed, 2013-07-31 11:25

Researchers at McGill University have discovered a new way to join materials together using ultrasound. Ultrasound – sound so high it cannot be heard – is normally used to smash particles apart in water. In a recent study, the team of researchers, led by McGill professor Jake Barralet, from the faculties of Dentistry and Medicine, found that if particles were coated with phosphate, they could instead bond together into strong agglomerates, about the size of grains of sand. Their results are published in the journal Advanced Materials.

Contact Information

Contact: Cynthia Lee
Organization: Media Relations
Email:
Office Phone: 514.398.6754
Category:
Source Site: /newsroom