Mental Health Awareness: University of Ottawa Students’ Knowledge of Mental Health Resources Provided on Campus

Tabet, Dana

17 August 2023

The University of Ottawa (UO) has been dealing with a mental health crisis. The purpose of this study was to evaluate UO students’ knowledge, awareness, and use of mental health services (MHS) and to address limited research on knowledge of on-campus MHS. A cross-sectional online, bilingual, survey was administered to 235 UO students over 18 years old and registered at the university since Fall 2019. Data analysis included descriptive data, categorical analysis, and inductive thematic analysis. Awareness and use of services varied depending on the services in question. 48.9% of students only heard about the services but could not explain them. 57.4% would use a service if in distress and those who would not mainly point to Use of other methods and Lack of information as their reasons. This study contributes to the ongoing efforts of improving UO community’s mental wellbeing.

Mental Health Awareness

Mental Health Literacy

Knowledge of Services

University Students Mental Health

University of Ottawa

Co(II) Based Magnetic Systems. Part I Spin Crossover Systems and Dendritic Frameworks. Part II Co(II) Single Molecule Magnets.

Farghal, Ahmed M. S.

10 February 2012

This work comprises two main parts. The first part outlines our efforts to expand on the recent work of Gütlich et.al. by synthesizing Co(II) based spin crossover systems within a dendritic framework. We wanted to investigate the possibility of synthesizing different first generation, triazole containing dendrimers using “click” type reactions and their coordination ability with Co(II) ions. To this end we have had limited success mainly due to the numerous challenges in synthesizing a pure dendrimer product. The second part details our efforts in the synthesis of a mononuclear Co(II) based single molecule magnet. This comes as an extension to recent reports by Chang and Long where they have successfully obtained mononuclear Fe(II) single molecule magnets by inducing structural distortions within the complexes to amplify the spin-orbit coupling. We postulated that the use of Co(II) in conjunction with a bulky ligand framework would lead to desirable magnetic properties. We chose the known bis(imino)pyridine ligand scaffold due to its rich chemistry and its interesting and unexpected coordination behaviour, as we have seen in previous research efforts by our lab. To this end we were successful in isolating and characterizing 4 compounds, and we have carried out detailed magnetic measurements on the two most magnetically interesting species.

Cobalt

Co(II)

Magnetism

single molecule magnet

spin crossover

magnetic anisotropy

dendrimers

click

bis(imino)pyridine

Farghal

Ahmed

spin orbit coupling

mononuclear

richeson

darrin

CCRI

University of Ottawa

Co(II) Based Magnetic Systems. Part I Spin Crossover Systems and Dendritic Frameworks. Part II Co(II) Single Molecule Magnets.

Farghal, Ahmed M. S.

10 February 2012

This work comprises two main parts. The first part outlines our efforts to expand on the recent work of Gütlich et.al. by synthesizing Co(II) based spin crossover systems within a dendritic framework. We wanted to investigate the possibility of synthesizing different first generation, triazole containing dendrimers using “click” type reactions and their coordination ability with Co(II) ions. To this end we have had limited success mainly due to the numerous challenges in synthesizing a pure dendrimer product. The second part details our efforts in the synthesis of a mononuclear Co(II) based single molecule magnet. This comes as an extension to recent reports by Chang and Long where they have successfully obtained mononuclear Fe(II) single molecule magnets by inducing structural distortions within the complexes to amplify the spin-orbit coupling. We postulated that the use of Co(II) in conjunction with a bulky ligand framework would lead to desirable magnetic properties. We chose the known bis(imino)pyridine ligand scaffold due to its rich chemistry and its interesting and unexpected coordination behaviour, as we have seen in previous research efforts by our lab. To this end we were successful in isolating and characterizing 4 compounds, and we have carried out detailed magnetic measurements on the two most magnetically interesting species.

Cobalt

Co(II)

Magnetism

single molecule magnet

spin crossover

magnetic anisotropy

dendrimers

click

bis(imino)pyridine

Farghal

Ahmed

spin orbit coupling

mononuclear

richeson

darrin

CCRI

University of Ottawa

Co(II) Based Magnetic Systems. Part I Spin Crossover Systems and Dendritic Frameworks. Part II Co(II) Single Molecule Magnets.

Farghal, Ahmed M. S.

10 February 2012

This work comprises two main parts. The first part outlines our efforts to expand on the recent work of Gütlich et.al. by synthesizing Co(II) based spin crossover systems within a dendritic framework. We wanted to investigate the possibility of synthesizing different first generation, triazole containing dendrimers using “click” type reactions and their coordination ability with Co(II) ions. To this end we have had limited success mainly due to the numerous challenges in synthesizing a pure dendrimer product. The second part details our efforts in the synthesis of a mononuclear Co(II) based single molecule magnet. This comes as an extension to recent reports by Chang and Long where they have successfully obtained mononuclear Fe(II) single molecule magnets by inducing structural distortions within the complexes to amplify the spin-orbit coupling. We postulated that the use of Co(II) in conjunction with a bulky ligand framework would lead to desirable magnetic properties. We chose the known bis(imino)pyridine ligand scaffold due to its rich chemistry and its interesting and unexpected coordination behaviour, as we have seen in previous research efforts by our lab. To this end we were successful in isolating and characterizing 4 compounds, and we have carried out detailed magnetic measurements on the two most magnetically interesting species.

Cobalt

Co(II)

Magnetism

single molecule magnet

spin crossover

magnetic anisotropy

dendrimers

click

bis(imino)pyridine

Farghal

Ahmed

spin orbit coupling

mononuclear

richeson

darrin

CCRI

University of Ottawa

Co(II) Based Magnetic Systems. Part I Spin Crossover Systems and Dendritic Frameworks. Part II Co(II) Single Molecule Magnets.

Farghal, Ahmed M. S.

January 2012

This work comprises two main parts. The first part outlines our efforts to expand on the recent work of Gütlich et.al. by synthesizing Co(II) based spin crossover systems within a dendritic framework. We wanted to investigate the possibility of synthesizing different first generation, triazole containing dendrimers using “click” type reactions and their coordination ability with Co(II) ions. To this end we have had limited success mainly due to the numerous challenges in synthesizing a pure dendrimer product. The second part details our efforts in the synthesis of a mononuclear Co(II) based single molecule magnet. This comes as an extension to recent reports by Chang and Long where they have successfully obtained mononuclear Fe(II) single molecule magnets by inducing structural distortions within the complexes to amplify the spin-orbit coupling. We postulated that the use of Co(II) in conjunction with a bulky ligand framework would lead to desirable magnetic properties. We chose the known bis(imino)pyridine ligand scaffold due to its rich chemistry and its interesting and unexpected coordination behaviour, as we have seen in previous research efforts by our lab. To this end we were successful in isolating and characterizing 4 compounds, and we have carried out detailed magnetic measurements on the two most magnetically interesting species.

Cobalt

Co(II)

Magnetism

single molecule magnet

spin crossover

magnetic anisotropy

dendrimers

click

bis(imino)pyridine

Farghal

Ahmed

spin orbit coupling

mononuclear

richeson

darrin

CCRI

University of Ottawa

Illuminating a Tragic Miasma in Shepard’s A Particle of Dread

Thomas, Benjamin

07 January 2021

Sam Shepard was a playwright who used a variety of stories and styles to explore and understand the country he called home, The United States of America. This thesis launches the process of understanding how Greek tragedy had influenced the work of Shepard in his explorations by looking at Shepard’s final play before his passing, A Particle of Dread (Oedipus Variations). Using the concept of miasma that has been established as important to Greek tragedy to analyze A Particle of Dread and its primary source work, Oedipus Rex, this thesis reveals the extent of the ancient tragic form’s presence in Shepard’s last play. To do so, I approach the work in a combination of theory and practice. I first use dramaturgical analysis of Oedipus Rex, to explain what tragic role miasma has in Sophocles’ play. This is followed by a mirrored dramaturgical analysis of A Particle of Dread to uncover and compare what place miasma (and therefore tragedy) has in Shepard’s play. Following this is the review and analysis of five performance workshops exploring scenes of Shepard’s play which used a combination of performance and lighting to physicalize that dramaturgical work so as to further it and hopefully reveal new aspects through their embodiment. This dramaturgical and practical work results in the discovery of how and to what end Shepard has chosen to use the Grecian content style to analyze and commentate on Western society. The work also offers the chance to compare how the engagement with pollution has changed from the characters of 5th Century BCE Greece to 2014 America, and what that might mean for 2020 onwards.

Sam Shepard

A Particle of Dread

Miasma

Oedipus Rex

Pharmakos

Lighting Design

Semiotics

Dramaturgy

Stage lighting

Greek tragedy

Contamination

Performance studies

Theatre Workshops

Plague

Adaptation

Sophocles

American Theatre

Oedipus

University of Ottawa theses -- 2021

Thesis