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Nov 21, 2024
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MATH 2530 - Introductory Data Science Students learn the basics of data acquisition, organization, and analysis; acquire hands-on experience with statistical estimation and inference, data modelling, and visualization; and explore machine learning applications, data privacy, and ethics.
Requisites: (Math placement level 2 or higher) or MATH 1200 or 1500 or PSY 1110 Credit Hours: 4 OHIO BRICKS Foundations: Quantitative Reasoning Repeat/Retake Information: May be retaken two times excluding withdrawals, but only last course taken counts. Lecture/Lab Hours: 3.0 lecture, 1.5 recitation Grades: Eligible Grades: A-F,WP,WF,WN,FN,AU,I Course Transferability: OTM course: TMM026 Introductory Data Science College Credit Plus: Level 1 Learning Outcomes: - Students will be able to distinguish between types and sources of data.
- Students will be able to acquire raw data from a variety of sources.
- Students will be able to ensure the clarity, completeness, and stability of the data through the organization of that data.
- Students will be able to identify incorrect, incomplete, inaccurate, irrelevant, or missing data and then modify, replace, or delete that information as needed.
- Students will be able to classify and summarize data using traditional plots.
- Students will be able to select appropriate charting techniques based on the type of data and the number of variables they intend to present.
- Students will be able to compare traditional and dynamic graphing techniques and give reasons for and justify why a dynamic plot may be the appropriate choice (or is the appropriate choice for a specific data set).
- Students will be able to identify common distribution models and discern what types of data fit certain models.
- Students will be able to develop an analytic model and trendline for a time series, and then predict the last n-tile of data in order to evaluate the effectiveness of their model.
- Students will be able to locate data visualizations and deconstruct the graph in order to evaluate the effectiveness of the visualization.
- Students will be able to write and implement generative models for situations ranging from simple one-sample problems to more complex settings
- Students will be able to estimate the parameters of a model, use simulation methods to evaluate different estimators, and describe their bias and variance.
- Students will be able to use simulation methods to understand the implications of statistical models.
- Students will be able to define machine learning and statistical learning, as well as differentiate between supervised and unsupervised learning.
- Students will be able to classify data using supervised machine learning techniques, search for and define a function that describes how different measured variables are related to one another and utilize predictive techniques such as linear regression.
- Students will be able to use algorithms to draw inferences from datasets consisting of input data without labeled responses.
- Students will be able to consider the local legislation, and identify the relevant laws, rules, and regulations pertaining to protection of personal data.
- Students will be able to discern bias from fairness in finance, medicine, and society in order to prevent incorrect or distorted conclusions.
- Students will be able to identify clarity in methods of analysis of data and demonstrate how conclusions can be misleading.
- Students will be able to cite sampling bias in its various forms.
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