Writing the Academic Cover Letter
Online virtual eventWhether you're on the path to graduate school, working in academia, or venturing into the academic job market, our online workshop will help you compose a compelling cover letter.
Whether you're on the path to graduate school, working in academia, or venturing into the academic job market, our online workshop will help you compose a compelling cover letter.
Tired of solo writing sessions? Craving a supportive environment to fuel your creativity? Look no further than our weekly Writing Community, tailored for the UBCO community.
Researchers, meet your Okanagan research support team! Come join us to connect with friendly faces who are always there to support solutions for your scholarly communication and digital or data-intensive research needs.
This two-part workshop will introduce essential concepts for working with spatial data in R, such as point and line data, polygons, raster data, and geographic projections.
This two-part workshop will introduce essential concepts for working with spatial data in R, such as point and line data, polygons, raster data, and geographic projections.
Researchers, meet your Okanagan research support team! Come join us to connect with friendly faces who are always there to support solutions for your scholarly communication and digital or data-intensive research needs.
Researchers, meet your Okanagan research support team! Come join us to connect with friendly faces who are always there to support solutions for your scholarly communication and digital or data-intensive research needs.
This workshop will introduce linear models (i.e., one-way ANOVAs), their assumptions, and limitations, in a format tailored towards visual and spatial learners.
Researchers, meet your Okanagan research support team! Come join us to connect with friendly faces who are always there to support solutions for your scholarly communication and digital or data-intensive research needs.
This session will introduce participants to the foundational concepts of statistical inference, including population distributions and the process of random sampling. Attendees will learn how sampling distributions evolve towards normality as sample sizes increase and will visually explore the Central Limit Theorem.
By the end of the session, participants should be able to visualize and understand population distributions, illustrate random sampling processes, recognize the normalizing effect of larger samples on sampling distributions, and demonstrate the Central Limit Theorem visually.
This workshop will illustrate how to fit linear models in R, diagnose any issues with model assumption violations, and interpret linear model summaries, including model coefficients, degrees of freedom, standard error estimates, t statistics, F statistics, p-values, R2, statistical significance, adjusted R2.
By the end of this session, participants will be able to fit linear models in R and interpret model outputs, including the output of the summary() function in R.
Researchers, meet your Okanagan research support team! Come join us to connect with friendly faces who are always there to support solutions for your scholarly communication and digital or data-intensive research needs.
This session will address the visualization of standard deviation (s.d.), standard error of the mean (s.e.m.), and confidence interval (CI) error bars to enhance the understanding of uncertainty in data analysis. The interpretation of error bars for statistical significance will be discussed, along with common misinterpretations to avoid.
By the end of the session, participants should be able to visualize and interpret error bars, understand the implications of their spacing and width, and be cautious of common pitfalls such as misinterpreting non-overlapping error bars as evidence of significance.
Do you want to practice your English speaking skills? Join our English Conversation Circle!
This workshop will demystify ANOVAs by framing them in the context of linear models with multiple predictors (i.e., multiple linear regression). The session will also introduce attendees to Directed Acyclical Graphs (DAGs) and demonstrate how to use them to infer causality in one’s model.
By the end of this session participants should be able to fit linear models with more than one predictor, check for collinearity between predictors, and interpret linear models using DAGs.
Researchers, meet your Okanagan research support team! Come join us to connect with friendly faces who are always there to support solutions for your scholarly communication and digital or data-intensive research needs.
This session will introduce participants to the concept of P values and their role in hypothesis testing, highlighting that P values reflect the probability of observing the data under the null hypothesis, not the biological significance of the findings. The session will cover the computation of P values and delve into the nuances of one-sample t-tests.
By the end of the session, participants should be able to comprehend the meaning of P values, understand how hypothesis tests calculate P values, recognize when small P values indicate unlikely events under the null hypothesis, and explore the assumptions behind one-sample t-tests.
This workshop will introduce interaction terms in linear models along with random and fixed effects, including random and fixed intercepts and slopes, in the context of Hierarchical Linear Models (also known as Linear Mixed Models).
By the end of this session, participants should be able to fit (Hierarchical) Linear Models (HLMs) with interaction terms and interpret the output of the summary() function for Hierarchical Linear Models. Additionally, participants will be able to identify the limitations of (H)LMs.
Researchers, meet your Okanagan research support team! Come join us to connect with friendly faces who are always there to support solutions for your scholarly communication and digital or data-intensive research needs.
This session will address the advantages of box plots over bar charts for displaying the spread and variability in data. Participants will learn how box plots can be used to compare multiple samples, the impact of sample size on data representation, and the efficient identification of outliers.
By the end of the session, participants should be able to create and interpret box plots, appreciate their usefulness in comparing multiple samples, understand the implications of sample size, and identify outliers and median confidence intervals through notches in box plots.
This workshop will introduce Generalized Linear Models (GLMs), which allow one to model non-Gaussian (i.e., non-normal) data.
By the end of this session, participants will be familiar with the three parts of GLMs (family of distribution, linear predictor, and link function) and will be able to decide what family of distributions and link function to choose for their data. They will also be able to interpret the output of the summary() function and diagnostic plots for (H)GLMs and recognize the limitations of (H)GLMs.
Researchers, meet your Okanagan research support team! Come join us to connect with friendly faces who are always there to support solutions for your scholarly communication and digital or data-intensive research needs.
This session will introduce participants to the various types of t-tests, including one-sample, two-sample, paired, and one-sided tests. Attendees will learn about the appropriate applications for each type and the visualization techniques that can enhance the interpretation of t-test results.
By the end of the session, participants should be able to apply and visually represent different t-tests, interpret their results, understand the implications of multiple testing corrections, and select the appropriate test for their data.
Do you want to practice your English speaking skills? Join our English Conversation Circle!
This workshop will introduce Generalized Additive Models (GAMs), which allow one to fit models that are complex and nonlinear but easily interpretable, unlike many “black-box” machine learning models.
By the end of this session, participants will be able to fit GAMs in R using the mgcv package and understand the advantages of GAMs over GLMs and LMs.