Creating inclusive spaces for partnership: Responses from local leaders engaged in a community-university partnership centre

Communities around the world are faced with challenges as they seek to address inequality in spite of larger systems designed to create dependence. In response to this, local residents have begun to develop their own solutions to address the needs of their communities. Creating spaces for capacity building and empowerment engages community members as leaders to identify and address concerns as they emerge. The Hartland Partnership Center is an example of a community-university partnership designed to meet the needs of individuals and families living on the westside of Salt Lake City. The Hartland Resident Committee (HRC) was formed to lead this endeavour by identifying what the needs of community members were and developing programs within a community learning centre located in a gateway neighbourhood for new arriving populations of immigrant and refugee background. With this pilot study, we sought not only to understand why individuals became engaged in leadership, but also why HRC members remained engaged. More specifically, we wanted to identify what it was about the HRC that helped individuals feel comfortable to share their ideas for change and growth. We identified five key methods to engage the HRC members to be leaders in their community: (1) provide opportunities for leadership development; (2) create an inclusive environment; (3) identify the common goal of the group while respecting diversity; (4) care about the lives of RC members; and (5) implement the decisions of the group. The findings of this study provide additional insights into why community members become engaged in community-university partnerships and the foundation for further research on engagement of community members as leaders. Keywords: community engagement, empowerment, capacity building, resident committee, community social wor

Focus position below TP in Standard Arabic

Purpose – Adopting the split complementizer phrase (CP) hypothesis, the paper aims at providing an account for object cliticization in Standard Arabic (SA) as an instance of object displacement. Kayne's proposal on cliticization is adopted here to account for the type of displacement in SA that objects clitics in SA, like full determiner phrases (DPs), obligatorily move from their base position as independent complements of the verb to the specifier of Foc first before attaching to the verb under the tense node. Design/methodology/approach – This research adopts a qualitative interpretive research design (Creswell, 2007, 2010). The majority of the samples chosen for the study involve dependent pronominal objects obligatorily attached to the verb. The samples were judged to be grammatical based on the author's judgment as an native speaker of Arabic. Moreover, all the examples were checked for grammaticality by two full professors of Arabic grammar who are native speakers. Findings – The analysis proposed that, like lexical DP's, pronominal objects originate as separate maximal projection (XP) constituents and move from their base position as verbal complements to the focus position [Spec, Foc]. In other words, both are able to move out of VP, targeting the same specifier position of a functional projection. This movement is focus-driven, that is, triggered by the edge feature on Foc. Pronominal objects at a later phase crucially higher than V0 (possibly in phonetic form (PF)) get cliticized to the verb which has adjoined to T. Originality/value – Unlike displaced lexical DP objects in SA syntax, displaced pronominal objects, however, have received less critical attention especially within Rizzi's (1997, 2004) left periphery theory and, therefore, some areas of these constructions remain poorly understood

The Hartland Partnership Center Resident Committee: Engaging Community Members in Developing Knowledge, Informing Growth, and Bridging the Cultural Gap.

The Hartland Partnership Center is a program of University Neighborhood Partners (UNP), a University-community partnership and department of the University of Utah, located in Salt Lake City. It successfully brings together faculty, students, community agencies, and residents to co-design and implement programs with the families living in the surrounding area. A central element of the UNP/Hartland Partnership Center is the Resident Committee. This presentation will provide an overview of the Resident Committee, the processes to create the Resident Committee, and practices to engage Committee members. The Resident Committee is one way the community has broadened participation in transformation and knowledge creation. The purpose of the Resident Committee is to expand the number of community leaders and introduce University of Utah representatives, students, and community associates to West Salt Lake neighborhoods. The group broadly represents the diversity of the community, and efforts are made to ensure the different racial, ethnic, religious, and socioeconomic groups living the community are included. The Resident Committee provides the essential information used to educate the University groups and Hartland Partnership Center partners about the community. Committee members collect information from the residents that better identify the community’s resources, needs, and strengths. In addition to this, the Resident Committee provides cultural trainings for the larger service and educational community. Presentations emphasize bridging the cultural gap in education, criminal justice, and health care. Understanding the stories and cultures of community partners is critical to the work we do. Participants will be encouraged to share stories about their culture and draw themes from stories to develop plans for community growth

Seeking Refuge: An Exploration of Unaccompanied Women, Minors from Somalia and Families from Pakistan Experiences of Services in Bangkok, Thailand

The number of unprotected urban refugees in Bangkok has grown over the past few years with new migrations of young women, men and families from Somalia and Pakistan. An urban environment can mean opportunity for some but for many the environment can increase vulnerability to exploitation and detention. This study aimed to explore refugees’ experiences in Bangkok, assess agencies’ service delivery models, and strengthen their capabilities to address service gaps. Participants were recruited using purposeful sampling and snowball. Using CBPR, focus groups discussion with Somali and Pakistani refugees (n=63) and individual interviews (n=42) were conducted. Agencies’ staff (n=23) were interviewed regarding challenges in providing services to refugees. Qualitative data analysis revealed four major themes: lack of basic need, problems with legal services, agencies revealed urgent need for shifting from emergency services towards long-term strategies given the protracted immigration status of urban refugees, and the need for a collaborative approach in service provision emerged as an urgent call. Implications to social work practice with urban refugees focusing on potentials for innovative service provision and collective agency responses are discussed

Computational Valuation of Darcy Ternary-Hybrid Nanofluid Flow across an Extending Cylinder with Induction Effects

The flow of an electroconductive incompressible ternary hybrid nanofluid with heat conduction in a boundary layer including metallic nanoparticles (NPs) over an extended cylindrical with magnetic induction effects is reported in this research. The ternary hybrid nanofluid has been synthesized with the dispersion of titanium dioxide, cobalt ferrite, and magnesium oxide NPs in the base fluid water. For a range of economical and biological applications, a computational model is designed to augment the mass and energy conveyance rate and promote the performance and efficiency of thermal energy propagation. The model has been written as a system of partial differential equations. Which are simplified to the system of ordinary differential equations through similarity replacements. The computing approach parametric continuation method is used to further process the resultant first order differential equations. The results are validated with the bvp4c package for accuracy and validity. The outcomes are displayed and analyzed through Figures and Tables. It has been observed that the inverse Prandtl magnetic number and a larger magnetic constant reduce the fluid flow and elevate the energy profile. The variation of ternary hybrid NPs significantly boosts the thermophysical features of the base fluid

Computational Valuation of Darcy Ternary-Hybrid Nanofluid Flow across an Extending Cylinder with Induction Effects

The flow of an electroconductive incompressible ternary hybrid nanofluid with heat conduction in a boundary layer including metallic nanoparticles (NPs) over an extended cylindrical with magnetic induction effects is reported in this research. The ternary hybrid nanofluid has been synthesized with the dispersion of titanium dioxide, cobalt ferrite, and magnesium oxide NPs in the base fluid water. For a range of economical and biological applications, a computational model is designed to augment the mass and energy conveyance rate and promote the performance and efficiency of thermal energy propagation. The model has been written as a system of partial differential equations. Which are simplified to the system of ordinary differential equations through similarity replacements. The computing approach parametric continuation method is used to further process the resultant first order differential equations. The results are validated with the bvp4c package for accuracy and validity. The outcomes are displayed and analyzed through Figures and Tables. It has been observed that the inverse Prandtl magnetic number and a larger magnetic constant reduce the fluid flow and elevate the energy profile. The variation of ternary hybrid NPs significantly boosts the thermophysical features of the base fluid

Natural Medicine a Promising Candidate in Combating Microbial Biofilm

Studies on biofilm-related infections are gaining prominence owing to their involvement in most clinical infections and seriously threatening global public health. A biofilm is a natural form of bacterial growth ubiquitous in ecological niches, considered to be a generic survival mechanism adopted by both pathogenic and non-pathogenic microorganisms and entailing heterogeneous cell development within the matrix. In the ecological niche, quorum sensing is a communication channel that is crucial to developing biofilms. Biofilm formation leads to increased resistance to unfavourable ecological effects, comprising resistance to antibiotics and antimicrobial agents. Biofilms are frequently combated with modern conventional medicines such as antibiotics, but at present, they are considered inadequate for the treatment of multi-drug resistance; therefore, it is vital to discover some new antimicrobial agents that can prevent the production and growth of biofilm, in addition to minimizing the side effects of such therapies. In the search for some alternative and safe therapies, natural plant-derived phytomedicines are gaining popularity among the research community. Phytomedicines are natural agents derived from natural plants. These plant-derived agents may include flavonoids, terpenoids, lectins, alkaloids, polypeptides, polyacetylenes, phenolics, and essential oils. Since they are natural agents, they cause minimal side effects, so could be administered with dose flexibility. It is vital to discover some new antimicrobial agents that can control the production and growth of biofilms. This review summarizes and analyzes the efficacy characteristics and corresponding mechanisms of natural-product-based antibiofilm agents, i.e., phytochemicals, biosurfactants, antimicrobial peptides, and their sources, along with their mechanism, quorum sensing signalling pathways, disrupting extracellular matrix adhesion. The review also provides some other strategies to inhibit biofilm-related illness. The prepared list of newly discovered natural antibiofilm agents could help in devising novel strategies for biofilm-associated infections

Numerical Analysis of an Unsteady, Electroviscous, Ternary Hybrid Nanofluid Flow with Chemical Reaction and Activation Energy across Parallel Plates

Despite the recycling challenges in ionic fluids, they have a significant advantage over traditional solvents. Ionic liquids make it easier to separate the end product and recycle old catalysts, particularly when the reaction media is a two-phase system. In the current analysis, the properties of transient, electroviscous, ternary hybrid nanofluid flow through squeezing parallel infinite plates is reported. The ternary hybrid nanofluid is synthesized by dissolving the titanium dioxide (TiO2), aluminum oxide (Al2O3), and silicon dioxide (SiO2) nanoparticles in the carrier fluid glycol/water. The purpose of the current study is to maximize the energy and mass transfer rate for industrial and engineering applications. The phenomena of fluid flow is studied, with the additional effects of the magnetic field, heat absorption/generation, chemical reaction, and activation energy. The ternary hybrid nanofluid flow is modeled in the form of a system of partial differential equations, which are subsequently simplified to a set of ordinary differential equations through resemblance substitution. The obtained nonlinear set of dimensionless ordinary differential equations is further solved, via the parametric continuation method. For validity purposes, the outcomes are statistically compared to an existing study. The results are physically illustrated through figures and tables. It is noticed that the mass transfer rate accelerates with the rising values of Lewis number, activation energy, and chemical reaction. The velocity and energy transfer rate boost the addition of ternary NPs to the base fluid

Natural Medicine a Promising Candidate in Combating Microbial Biofilm

Studies on biofilm-related infections are gaining prominence owing to their involvement in most clinical infections and seriously threatening global public health. A biofilm is a natural form of bacterial growth ubiquitous in ecological niches, considered to be a generic survival mechanism adopted by both pathogenic and non-pathogenic microorganisms and entailing heterogeneous cell development within the matrix. In the ecological niche, quorum sensing is a communication channel that is crucial to developing biofilms. Biofilm formation leads to increased resistance to unfavourable ecological effects, comprising resistance to antibiotics and antimicrobial agents. Biofilms are frequently combated with modern conventional medicines such as antibiotics, but at present, they are considered inadequate for the treatment of multi-drug resistance; therefore, it is vital to discover some new antimicrobial agents that can prevent the production and growth of biofilm, in addition to minimizing the side effects of such therapies. In the search for some alternative and safe therapies, natural plant-derived phytomedicines are gaining popularity among the research community. Phytomedicines are natural agents derived from natural plants. These plant-derived agents may include flavonoids, terpenoids, lectins, alkaloids, polypeptides, polyacetylenes, phenolics, and essential oils. Since they are natural agents, they cause minimal side effects, so could be administered with dose flexibility. It is vital to discover some new antimicrobial agents that can control the production and growth of biofilms. This review summarizes and analyzes the efficacy characteristics and corresponding mechanisms of natural-product-based antibiofilm agents, i.e., phytochemicals, biosurfactants, antimicrobial peptides, and their sources, along with their mechanism, quorum sensing signalling pathways, disrupting extracellular matrix adhesion. The review also provides some other strategies to inhibit biofilm-related illness. The prepared list of newly discovered natural antibiofilm agents could help in devising novel strategies for biofilm-associated infections