Data Science FAQ

Since we react to the aesthetics of visual information just as much as we react to the information itself, how we present information is equally important – design and content go hand in hand. Data art is digital information presented in a way that is both aesthetically appealing and easily comprehensible. Every graph, every PowerPoint presentation, every website, and every email involves data art and design to some degree.

Aside from working as an artist that uses data as a medium, jobs involving data art generally involve being able to tell a story graphically. Such skills are sought after in data analysts, but some companies look to employ dedicated Data Visualization Designers/Editors/Developers. Careers involving data art can be found in:

• News agencies: Develop infographics, such as maps, charts, and graphs, often as a data journalist.
• Design studios: Create graphic designs and digital art.
• Analytics departments: Make data easier to comprehend for decision-making by creating interactive data visualization dashboards.
• Research labs: Find new ways to represent and visualize data, often at universities or data visualization companies.
• Freelancing: Develop a compelling portfolio and advertise to businesses that require help with data visualization from time to time.

Data science is an interdisciplinary field that combines technical tools from quantitative disciplines to methods of inquiry in other disciplines. Careers that involve data science generally involve being able to structure data, interpret data, effectively communicate information gleaned from data, and provide evidence-based recommendations and actionable insights. For this reason, knowledge of statistics and technical skills in statistical software (e.g. SPSS, SAS, R), scripting language (e.g. Python), and querying language (e.g. SQL) are key.

These careers also emphasize creative problem solving, critical thinking, teamwork, communication, and asking interesting questions. Because data and digital technologies have become an integral part of nearly every sector, many professions now involve working with data, including jobs that allow you to take on real-world problems in education, government, health, energy, public safety, transportation, economic development, international development, and others. Examples include:

• Biostatistician
• Business Intelligence Specialist
• Cartographer
• Climatologist
• Computer Security Analyst
• Epidemiologist
• Financial Analyst
• Data Analyst
• Data Engineer
• Data Visualization Developer
• Data Journalist
• Database Manager
• Machine Learning Engineer
• Market Analyst
• Policy Analyst
• Research Coordinator
• Sports Analyst
• Social Network Analyst
• Survey Researcher

A data scientist’s job is to arrange undefined sets of data for analysis. This can include writing algorithms or building statistical models. If you have interests in coding and analysis and like the idea of supporting evidence-based decision-making, our Mathematics: Data Science and Statistics (BA) may be for you.

The Data Science and Statistics BA provides a strong background in statistics and data analysis, with an emphasis on cross-disciplinary and computational courses that are especially tailored for a career in data science. The required coursework focuses on core mathematics (multivariable calculus, linear algebra, logic & proofs, real analysis), statistics from many perspectives (options in math, sociology, biology), high-level theoretical statistics (graduate level probability, statistical inference, bayesian modeling, time series), computer programming fundamentals (C++ / Java), statistical modeling (two econometrics courses, a special writing in the major course focused on prediction models), and practical modeling (via Excel w/VBA, a formal writing in the major course with R). Electives allow students to specialize in different emerging areas of data science such as data engineering, predictive analytics or visualization.

Graduates of the program are prepared for careers in data science and analytics in any field, as well as for continued study at the graduate level. For more information, email math@qc.cuny.edu or call 718-997-5800 to make an appointment to speak with an advisor.

For general questions about QC’s INTERDISCIPLINARY DATA COLLABORATIVE, contact Dr. Dan Weinstein.

For questions about data and how it relates to a specific field, make an appointment with a faculty member below:

• Accounting & Information Systems: Fang Sun, Steven Solieri, Accounting
• Advertising: Mara Einstein, Media Studies
• Anthropology: Megan Victor, Archaeology
• Art & Design: Danne Woo, Art
• Computational Linguistics, Social Network Analytics: Charles Gomez, Sociology
• Computational Modeling: Jeff Beeler, Biology 
• Computer Science: Ted Brown, Mayank Goswami, Alex Ryba
• Health Care Analytics: Dana Weinberg, Sociology
• Data Analytics: Charles Gomez, Elena Vesselinov, Hongwei Xu, Shige Song, Sociology
• Data Science and Statistics: Chris Hanusa, Adam Kapelner, Mathematics
• Demographic Research: Holly Reed, Sociology
• Digital Humanities: Douglas Rushkoff, Media Studies; Kevin Ferguson, English
• Digital Preservation and Storytelling: James Lowry, Archival Technologies Lab, GSLIS
• Digitization and Storage: Jonathan Thayer, Jose Sanchez, Library and Information Science
• Epidemiology: Chalres Turner, Sociology
• Economics: Francisco Ortega, Suleyman Taspinar, Economics
• Longitudinal Data Modeling: Yoko Nomura, Psychology
• Mathematics and Data Science: Alan Sultan, Adam Kapelner, Chris Hanusa, Mathematics
• Mathematical Modeling: Larry Liebovitch, Physics
• Market Research: Joseph Cohen, Sociology
• Neural Imaging and Analysis: Jin Fan, Neuroscience
• Sociology: Yinxian Zhang, Dana Weinberg, Amy Hsin, Sociology