Collage of six different computing related images.

Agriculture, Life Sciences & Natural Sciences Majors

A computing minor can benefit you and your career!


Find your major in the list below to read more.

Agricultural Business, Agribusiness Management Option, B.S.


How is Computing Applied?

 

  • Data Collection and Analysis: Computing systems are used to gather, store, and analyze data to gain insights into crop health, soil conditions, weather patterns, and more.

  • Precision Agriculture: Computing technology is used to implement precision agriculture techniques.

  • Supply Chain Management: Agribusinesses rely on computing systems to manage their complex supply chains.

  • Market Analysis: Agribusinesses use computing to monitor market trends, commodity prices, and consumer preferences.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Agribusiness Analyst: Agribusiness analysts play a crucial role in helping agricultural businesses make informed decisions by providing insights into market dynamics, financial performance, risk management, and strategic planning.

  • Agribusiness Data Manager: Agribusiness data managers play a critical role in ensuring that agricultural businesses leverage data effectively to make informed decisions, optimize operations, and enhance overall productivity and sustainability.

  • Agribusiness Technology Support: Agribusiness technology support is essential for ensuring that the technology infrastructure in agriculture is reliable, secure, and aligned with the business's goals. This support helps agribusinesses leverage technology to enhance productivity, optimize resource use, and stay competitive in the modern agricultural landscape.

Courses

School of Computing Courses

Ag Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific agribusiness courses available at this time***

Agricultural Business, B.S.


How is Computing Applied?

  • Farm Management Software: Many major agribusinesses employ farm management software platforms that integrate data from various sources.

  • Livestock Management: For animal agriculture, computing technology is used to monitor the health and well-being of livestock.

  • Regulatory Compliance: Computing systems assist agribusinesses in complying with regulatory requirements related to food safety, environmental sustainability, and labor standards.


Jobs that can be achieved with this major combined with a computing minor are:

  • Precision Agricultural Specialist: A precision agricultural specialist play a crucial role in modernizing and improving the efficiency of agricultural processes, contributing to sustainable and environmentally responsible farming practices.

  • AgTech Production Manager: An AgTech production manager plays a crucial role in leveraging technology to enhance productivity, sustainability, and profitability in agriculture.

  • Agricultural Software Developer: They play a vital role in leveraging technology to enhance productivity, sustainability, and resilience in agriculture by providing tailored software solutions that address the unique challenges and opportunities in the industry

Courses

School of Computing Courses

Ag Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific ag business courses available at this time***

Agricultural Business, Farm and Ranch Management Option, B.S.


How is Computing Applied?

  • Livestock Monitoring: Computer systems, including IoT (Internet of Things) devices and sensors, are used to monitor the health, location, and behavior of livestock.

  • Health Record Keeping: Digital record-keeping systems are used to maintain detailed health records for each animal.

  • Pasture and Grazing Management: Ranches often have vast grazing lands. Computing technology, such as GPS and GIS (Geographic Information Systems), assists in mapping and monitoring these lands.


Jobs that can be achieved with this major combined with a computing minor are:

  • Ranch Data Analyst: The role of a ranch data analyst is to leverage data-driven insights to help ranchers make more informed decisions and optimize their operations for success.

  • Livestock Technology Specialist: A livestock technology specialist plays a critical role in helping livestock producers adopt and leverage technology solutions to improve efficiency, productivity, animal welfare, and sustainability in their operations.

  • Ranch Operations Manager: They oversee all aspects of ranch operations, from animal husbandry and land management to personnel administration and financial planning, to ensure the efficient and sustainable operation of the ranch.

Courses

School of Computing Courses

Ag Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific ag business courses available at this time***

Agricultural Business, Livestock Business Management Option, B.S.


How is Computing Applied?

  • Traceability and Compliance: Computing systems support traceability efforts, allowing livestock businesses to track the origin and movement of animals and products throughout the supply chain.

  • Financial Management: Accounting software and financial management systems are used to track expenses, revenue, and profitability.

  • Breeding and Genetic Management: Computing technology is used to maintain detailed records of breeding programs, pedigrees, and genetic information


Jobs that can be achieved with this major combined with a computing minor are:

  • Livestock Operations Manager: Oversees the day-to-day management of livestock, implementing best practices for animal care and welfare, optimizing production efficiency, and ensuring the overall success and sustainability of the livestock operation.

  • Livestock Geneticist: Harnesses the power of genetics to improve the genetic potential, health, and welfare of livestock populations, thereby enhancing the sustainability and profitability of livestock production systems.

  • Livestock Supply Chain Manager: Ensures the efficient, reliable, and sustainable movement of livestock and livestock products through the supply chain, from farm to fork. They are responsible for managing various aspects of procurement, transportation, processing, distribution, and compliance to meet customer demand and achieve organizational objectives.

Courses

School of Computing Courses

Ag Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific ag business courses available at this time***

Agricultural Communications, B.S.


How is Computing Applied?

  • Online Platforms: They develop and maintain online platforms that serve as hubs for agricultural information.

  • Data Aggregation and Analysis: Computing technology is used to aggregate and analyze agricultural data from various sources, such as weather stations, sensors, and government agencies.

  • Mobile Apps: Mobile applications are developed to provide farmers with on-the-go access to agricultural resources and information


Jobs that can be achieved with this major combined with a computing minor are:

  • Agricultural Marketing Analysis: They play a crucial role in helping agricultural businesses understand market dynamics, identify growth opportunities, and develop effective marketing strategies to promote agricultural products and drive business success.

  • Agricultural Communications Specialist: They are critical when it comes to effectively communicating with diverse audiences to promote understanding, support, and appreciation for agriculture and its contributions to society. They help agricultural organizations navigate complex communication challenges and build positive relationships with stakeholders to advance shared goals and objectives.

  • Agricultural Data Journalist: An agricultural data journalist plays a critical role in leveraging data and storytelling techniques to inform and empower audiences, policymakers, and stakeholders about agricultural issues, trends, and solutions. By combining data analysis skills with journalistic principles, they help shed light on complex topics and drive positive change in the industry.

Courses

School of Computing Courses

Ag Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific ag comm courses available at this time***

Animal and Veterinary Science, B.S.


How is Computing Applied?

  • Diagnostic Imaging: Computing is integral to diagnostic imaging techniques such as X-rays, CT scans, and MRI scans.

  • Medical Records Management: Electronic Health Records (EHR) and practice management software are used to maintain comprehensive medical records for animals.

  • Laboratory Information Systems: Laboratories in veterinary science rely on computing systems to manage sample tracking, test results, and quality control.


Jobs that can be achieved with this major combined with a computing minor are:

  • Veterinary Informatics Specialist: Harnesses the power of technology and data to improve veterinary care, promote animal health and welfare, and advance the practice of veterinary medicine in the digital age. They serve as key contributors to the integration of informatics solutions into veterinary practice and help drive innovation and progress in the field.

  • Veterinary Software Developer: Develops and maintains software solutions that streamline workflows, enhancing productivity, improving patient care, and supporting business operations of veterinary clinics, hospitals, and practices. They leverage their technical expertise and domain knowledge to create software applications that empower veterinary professionals to deliver high-quality care to animals and improve outcomes in veterinary medicine.

  • Diagnostics Imaging Specialist: They play a critical role in veterinary medicine by providing essential diagnostic information through advanced imaging techniques. Their expertise helps veterinarians make accurate diagnoses, develop appropriate treatment plans, and improve the overall health and well-being of animal patients

Courses

School of Computing Courses

Vet Sciences Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific vet sciences courses available at this time***

Biology, B.S.


How is Computing Applied?

 

  • Metabolic Pathway Analysis: Computing technology is used to model and analyze metabolic pathways within cells, helping to understand biochemical processes, identify potential drug targets, and optimize bioproduction processes.

  • Evolutionary Biology: Computational simulations and analyses are employed to study evolutionary processes, including natural selection, genetic drift, and speciation.

  • Genes: Computing technology aids in the analysis of gene expression data, gene regulation networks, and functional annotations.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Bioinformatics Scientist: They play a crucial role in advancing biomedical research, personalized medicine, and our understanding of the complex biological systems that underlie health and disease. They apply interdisciplinary expertise in biology, computer science, and statistics to analyze and interpret biological data and accelerate scientific discovery in the life sciences.

  • Computational Biologist: They play a critical role in advancing biological research by leveraging computational methods to extract meaningful insights from large and complex biological datasets. Their interdisciplinary approach combines expertise in biology, computer science, statistics, and mathematics to contribute to a deeper understanding of the complexities of living organisms and the underlying mechanisms of life.

  • Biomedical Data Analyst: They play a crucial role in advancing biomedical research, personalized medicine, and healthcare innovation by analyzing and interpreting biomedical data to uncover insights, inform decision-making, and improve patient outcomes.

Courses

School of Computing Courses

Biology Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific biology courses available at this time***

Biology, Ecology, and Evolution Concentration, B.S.


How is Computing Applied?

 

  • Conservation Planning: Computing tools and software assist in conservation planning by optimizing the selection of protected areas, designing wildlife corridors, and prioritizing conservation actions based on ecological data.

  • Ecosystem Services Assessment: Computing supports the assessment of ecosystem services.

  • Community Ecology: Computing aids in the analysis of community ecology data, including species interactions and biodiversity patterns, to understand ecosystem dynamics.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Computational Ecologist: They play a critical role in advancing ecological research, biodiversity conservation, and ecosystem management by applying computational methods and models to study complex ecological systems and address pressing environmental challenges. They collaborate with ecologists, conservation biologists, and environmental scientists to develop interdisciplinary solutions for understanding and managing the natural world.

  • Evolutionary Geneticist: They play a crucial role in advancing our understanding of the genetic basis of evolution, adaptation, and speciation. They contribute to interdisciplinary research in evolutionary biology, genetics, ecology, and genomics, addressing fundamental questions about the origins and diversity of life on Earth.

  • Quantitative Ecologist: They play a critical role in advancing ecological research, conservation biology, and ecosystem management by applying quantitative methods and models to study complex ecological systems and address pressing environmental challenges. They integrate ecological theory with mathematical and statistical techniques to generate insights into the structure, function, and dynamics of ecosystems and inform evidence-based decision-making for biodiversity conservation and environmental sustainability.

Courses

School of Computing Courses

Biology Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific biology courses available at this time***

Botany, B.S.


How is Computing Applied?

 

  • Plant Genomics: Botanists use computing to sequence and analyze plant genomes, identify genes responsible for specific traits, and understand genetic diversity within plant species.

  • Plant Modeling: Computational modeling is used to simulate plant growth, development, and responses to environmental factors.

  • Plant Breeding: Computational methods are used in plant breeding programs to predict the performance of new crop varieties and accelerate the breeding process.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Computational Botanist: They play a critical role in advancing plant biology research, biodiversity conservation, and sustainable agriculture by integrating computational methods with biological expertise to study and understand the complexity of plant life and ecosystems.

  • Plant Geneticist: They play a critical role in advancing plant breeding, crop improvement, and agricultural sustainability by studying the genetic basis of plant traits and developing strategies to enhance crop performance, resilience, and adaptation to changing environmental conditions.

  • Phylogeneticist: They play a crucial role in advancing our understanding of evolutionary patterns, processes, and mechanisms across the tree of life. They use phylogenetic methods and comparative approaches to reconstruct evolutionary histories, test evolutionary hypotheses, and explore the diversity of life on Earth.

Courses

School of Computing Courses

Botany Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific botany courses available at this time***

Design, Merchandising and Textiles - Apparel Design and Product Development Concentration, B.S.


How is Computing Applied?

  • Computer-Aided Design (CAD): CAD software is a fundamental tool for apparel designers. It allows them to create digital sketches and renderings of clothing designs, making it easier to experiment with different styles, patterns, and colors.

  • 3D Design and Virtual Prototyping: Some designers use 3D modeling software to create virtual prototypes of clothing.

  • Pattern Making and Grading: Computing technology is used in pattern making to create digital patterns that serve as templates for cutting and sewing fabric.


Jobs that can be achieved with this major combined with a computing minor are:

  • Fashion Tech Designer: They bridge the gap between fashion and technology, pushing the boundaries of what clothing and accessories can do while maintaining a sense of style and creativity.

  • Fashion E-Commerce Specialist: They play a crucial role in driving the success of a fashion brand's online retail operations by effectively managing the e-commerce platform and implementing strategies to attract and convert customers.

  • Fashion Data Analyst: They help fashion companies understand market dynamics, consumer behavior, and competitive landscape through data analysis, enabling them to make informed decisions and drive business growth.

Courses

School of Computing Courses

Design Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific design textiles courses available at this time***

Design, Merchandising and Textiles - Interior Design Concentration, B.S.


How is Computing Applied?

 

  • 3D Visualization: Interior designers employ 3D rendering and visualization software to create photorealistic images and virtual tours of proposed design concepts.

  • Space Planning: Computing technology aids in space planning by allowing designers to optimize the use of available space, consider traffic flow, and balance aesthetics and functionality.

  • Project Management: Project management software helps interior designers and project managers oversee the entire design process.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Interior Design Software Developer: They play a vital role in creating tools that streamline and enhance the interior design process, enabling designers to visualize concepts, communicate ideas effectively, and bring their vision to life.

  • Interior Design Visualization Specialist: They play a crucial role in helping clients and stakeholders visualize and understand interior design concepts, facilitating effective communication and decision-making throughout the design process.

  • Interior Design Sustainability Consultant: They play a critical role in promoting environmentally responsible design practices and helping clients achieve their sustainability goals while creating healthy, comfortable, and aesthetically pleasing interior spaces.

Courses

School of Computing Courses

Design Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific design courses available at this time***

Design, Merchandising and Textiles - Merchandising Concentration, B.S.


How is Computing Applied?

  • Inventory Management: Computing systems are employed to track and manage inventory levels.

  • E-Commerce Platforms: Major merchandisers use e-commerce platforms to sell products online.

  • Customer Relationship Management (CRM): CRM software helps retailers track customer interactions, analyze customer data, and personalize marketing efforts.


Jobs that can be achieved with this major combined with a computing minor are:

  • Merchandise Planner: They drive sails and profitability for retail businesses by effectively managing inventory, planning assortments, and optimizing merchandising strategies to meet customer demand and achieve business objectives.

  • Pricing Analyst: They play a critical role in helping companies set competitive and profitable prices for their products or services, driving revenue growth and maintaining market competitiveness.

  • Retail Technology Consultant: They play a vital role in helping retail businesses harness the power of technology to optimize operations, enhance customer engagement, and achieve sustainable growth in a rapidly evolving market landscape.

Courses

School of Computing Courses

Design Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific design textiles courses available at this time***

Human Development and Family Science (B.S.) - Family and Consumer Sciences Teacher Certification Concentration


How is Computing Applied?

 

  • Learning Management Systems (LMS): Educational institutions use LMS platforms to deliver and manage online courses, assignments, quizzes, and learning resources.

  • Digital Content Creation: Teachers create digital learning materials, such as slideshows, videos, and interactive presentations, using various software tools.

  • Online Assessments: Teachers use computing technology to create and administer online assessments, including quizzes, tests, and exams.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Digital Literacy Instructor: They play a vital role in equipping individuals with the skills and knowledge they need to thrive in today's digital age, empowering them to participate fully in the digital world and take advantage of the opportunities it offers.

  • Consumer Education Specialist: They play a crucial role in empowering consumers with the knowledge and skills they need to make informed decisions, protect themselves from fraud and abuse, and achieve financial well-being. They serve as advocates for consumer rights and work to promote a fair and transparent marketplace for all consumers.

  • Digital Family Life Editor: They play a pivotal role in creating engaging and informative content that resonates with families and contributes to building a supportive and informative online community. They strive to provide valuable resources, advice, and inspiration to help families navigate the challenges and joys of family life in the digital age.

Courses

School of Computing Courses

Education Courses

Computing in Society

COMP 2000

ITEC 2360: Teaching with Technology

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

ITEC 4340: Technology Integration in Teaching

Advanced Computing

COMP 3500

 

Computing Elective

 

EDSE 4280: Subject Matter Specific Methods: Computer Science

Experiential Learning

COMP 4000

EDEL/EDSE/EDEX 4500: Residency in Teaching

EDEC 4580: Internship

Human Development and Family Science (B.S.) - Professional Child Development Concentration


How is Computing Applied?

 

  • Developmental Assessment Tools: Child development professionals use computer-based assessment tools to evaluate children's cognitive, social, emotional, and physical development.

  • Data Analysis and Research: Computing technology assists researchers in collecting, managing, and analyzing large datasets related to child development.

  • Behavioral Intervention Programs: Child development specialists use computer-based behavioral intervention programs to address developmental delays, learning disorders, and behavioral challenges in children.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Educational Technology Specialist: They play a critical role in supporting educators, promoting innovation, and leveraging technology to enhance teaching and learning experiences in educational settings. They bridge the gap between pedagogy and technology, empower educators with digital tools and resources, and facilitate the transformation of teaching and learning practices in the digital age.

  • Child Development Researcher: They play a crucial role in advancing knowledge, informing practice, and improving outcomes for children by conducting research, disseminating findings, and translating research into actionable strategies and interventions that support healthy development and well-being.

  • Child and Family Services Manager: They play a critical role in leading and managing programs and services that support the well-being, safety, and resilience of children and families in need. They combine expertise in social work, program management, community collaboration, and leadership to make a positive difference in the lives of vulnerable populations and strengthen families and communities.

Courses

School of Computing Courses

Child Development Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific child development courses available at this time***

Human Development and Family Sciences, B.S.


How is Computing Applied?

 

  • Research Data Analysis: Researchers in HDFS use computing software and statistical packages to analyze data collected from studies related to child development, family relationships, aging, and other aspects of human development.

  • Data Management and Storage: Computing systems are essential for managing and storing research data securely.

  • Survey and Questionnaire Administration: Computing technology is used to create and administer online surveys and questionnaires for research purposes


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Human Services Technology Specialist: They play a vital role in leveraging technology to support the mission of organizations that provide human services, helping to improve the lives of individuals and communities through efficient and effective service delivery.

  • Child Development Technology Consultant: They play a crucial role in harnessing the potential of technology to support positive outcomes for children, families, and communities. By integrating technology thoughtfully and responsibly into early childhood settings, they help to create engaging, inclusive, and supportive learning environments that foster children's growth and development.

  • Mental Health App Developer: They play a critical role in leveraging technology to increase access to mental health resources, support self-care and symptom management, and empower individuals to take control of their mental well-being. They contribute to the growing field of digital mental health by creating innovative and effective tools that complement traditional mental health services and expand the reach of mental health care to diverse populations.

Courses

School of Computing Courses

Family Sciences Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific family science courses available at this time***

Human Nutrition and Food (B.S.) - Dietetics Concentration


How is Computing Applied?

 

  • Nutritional Assessment: Dietitians and nutritionists use software applications to assess and analyze the dietary intake of individuals and populations.

  • Electronic Health Records (EHR): In clinical dietetics, EHR systems store and manage patient information, including medical history, dietary assessments, and treatment plans.

  • Nutritional Planning and Menu Development: Dietitians and nutritionists use specialized software to create personalized meal plans and diet recommendations for clients.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Dietetics Software Developer: They play a crucial role in developing technology solutions that empower dietitians and nutritionists to deliver high-quality care, optimize workflow efficiency, and improve patient outcomes in clinical, community, and private practice settings.

  • Nutrition Education Technologist: They play a vital role in using technology to promote nutrition literacy, empower individuals to make informed dietary choices, and address public health challenges related to nutrition and diet-related diseases. They bridge the gap between nutrition science and education, leveraging technology to enhance the reach, accessibility, and impact of nutrition education initiatives.

  • Nutritional Epidemiologist: They play a critical role in advancing our understanding of the complex relationships between diet, nutrition, and health, and their work contributes to the development of strategies to promote optimal nutrition and prevent diet-related diseases on a population level.

Courses

School of Computing Courses

Dietetics Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific dietetics courses available at this time***

Human Nutrition and Food, B.S.


How is Computing Applied?

 

  • Nutritional Databases: Comprehensive nutritional databases and software tools contain information on the nutrient content of foods and ingredients.

  • Nutritional Research: Researchers use computing technology to analyze large datasets related to human nutrition.

  • Clinical Nutrition: Clinical dietitians and healthcare providers use computing technology to assess and manage the nutritional status of patients.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Digital Diet Planner: They play a crucial role in empowering individuals to adopt healthy eating habits, achieve their dietary goals, and maintain optimal nutrition through the use of innovative digital tools and resources. They contribute to improving overall health and well-being by making diet planning and nutrition management more accessible, convenient, and personalized for users.

  • Nutrition Technology Instructor: They play an important role in preparing learners to leverage technology effectively in their nutrition education, research, and practice endeavors. By teaching essential technology skills and knowledge, they empower individuals to harness the power of digital tools to advance their careers and make meaningful contributions to the field of nutrition.

  • Nutrition Data Visualist Specialist: They play a vital role in transforming nutrition data into actionable insights and compelling narratives that inform decision-making, drive public health initiatives, and promote understanding of nutrition-related issues. Their expertise in data visualization enhances communication, engagement, and impact in the field of nutrition and public health.

Courses

School of Computing Courses

Human Nutrition Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific human nutrition courses available at this time***

Microbiology, B.S.


How is Computing Applied?

 

  • Genomic Sequencing and Analysis: Computing technology plays a pivotal role in DNA sequencing and genomic analysis of microorganisms.

  • Bioinformatics: Bioinformatics tools and databases are essential for microbial genomics and proteomics research.

  • Phylogenetics: Computational phylogenetics is used to construct evolutionary trees (phylogenies) that illustrate the genetic relationships between microorganisms.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Pharmacogenomics Researcher: They play a critical role in advancing precision medicine by elucidating the genetic factors that influence individual responses to drugs. Their research contributes to the development of personalized treatment strategies that maximize therapeutic efficacy, minimize adverse effects, and improve patient outcomes in various disease conditions.

  • Microbiome Data Scientist: They play a crucial role in advancing our understanding of microbial communities and their impact on human health, environmental sustainability, and ecosystem functioning. By leveraging computational methods and data-driven approaches, they contribute to unraveling the complexities of the microbiome and translating microbiome research into actionable insights for biomedical and environmental applications.

  • Microbial Genomics Analyst: They play a critical role in advancing our understanding of microbial diversity, evolution, ecology, and pathogenesis. Their work contributes to various fields, including microbiology, infectious disease research, environmental science, agriculture, biotechnology, and public health, by leveraging genomic data to address fundamental questions and practical challenges related to microbial biology and microbiome science.

Courses

COMP Courses

MOLB Courses

Computing in Society

COMP 2000

 

Computer Programming

COMP 2500

COSC 1010: Introduction to Computer Science

 

Basic Computing

 COMP 3000

MOLB 3320: Molecular Biological Methods

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learing

COMP 4000

 

Molecular Biology, B.S.


How is Computing Applied?

 

  • Structural Biology: Molecular modeling and simulation software help researchers predict and analyze the 3D structures of proteins and nucleic acids.

  • Genome Editing and CRISPR-Cas9: Computing is involved in the design of guide RNAs for genome editing using the CRISPR-Cas9 system, ensuring precision in gene targeting.

  • Drug Discovery: Molecular docking simulations and virtual screening use computing technology to predict drug-protein interactions and identify potential drug candidates.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Computational Biologist: They play a crucial role in advancing our understanding of biological systems, driving biomedical research, and developing innovative solutions to address fundamental questions and challenges in biology and medicine. They contribute to interdisciplinary research teams, collaborate with experimental biologists and clinicians, and leverage computational approaches to accelerate scientific discovery and improve human health.

  • Structural Bioinformatician: They play a critical role in bridging the gap between sequence and structure in molecular biology, providing computational tools and resources to elucidate the structure-function relationships of biomolecules and advance our understanding of complex biological systems.

  • Molecular Modeling Scientist: They play a crucial role in advancing our understanding of molecular structure and function, accelerating drug discovery and development, and designing novel molecules with tailored properties for various applications in science, medicine, and technology. They integrate computational approaches with experimental methods to complement and enhance research efforts in molecular biology, chemistry, and materials science.

Courses

School of Computing Courses

Molecular Biology Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific molecular biology courses available at this time***

Physiology, B.S.


How is Computing Applied?

 

  • Simulation and Modeling: Computational models are used to simulate physiological processes and systems.

  • Clinical Decision Support: Computing systems aid healthcare professionals in making clinical decisions by analyzing patient data, predicting outcomes, and suggesting treatment options based on physiological parameters and medical history.

  • Genomic and Proteomic Analysis: Bioinformatics tools and software are employed to analyze large datasets of genetic and proteomic information.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Biomedical Data Analyst: They analyze and interpret data related to biomedical research or clinical studies. They apply statistical and computational methods to extract meaningful insights from complex datasets in areas such as genomics, proteomics, medical imaging, and clinical trials.

  • Clinical Informatics Specialist: They focus on the design, implementation, and optimization of healthcare information systems and technology solutions to support clinical workflows, improve patient care, and enhance healthcare outcomes.

  • Bioinformatics Scientist: They apply computational and analytical methods to analyze biological data, such as DNA sequences, protein structures, and gene expression profiles, to understand biological processes, diseases, and genetic variation.

Courses

School of Computing Courses

Physiology Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific Physiology courses available at this time***

Plant Production and Protection, B.S.


How is Computing Applied?

 

  • Crop Modeling: Computer-based crop modeling systems use data on weather, soil conditions, and crop varieties to simulate plant growth and predict yields.

  • Automated Irrigation Systems: Smart irrigation systems controlled by computers and sensors help farmers efficiently manage water resources by delivering the right amount of water to crops based on real-time data.

  • Crop Protection: Computing technology assists in pest and disease monitoring.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Agricultural Technology Specialist: They play a vital role in driving technological innovation and digital transformation in the agricultural sector, helping farmers embrace new tools and practices to enhance productivity, sustainability, and profitability in farming operations.

  • Farm Management: Farm management involves a multifaceted approach to running a successful and sustainable farm business, encompassing financial, operational, marketing, regulatory, and environmental considerations. Effective farm management requires a combination of strategic planning, practical knowledge, technical skills, and leadership abilities to navigate the complexities of modern agriculture and adapt to changing market conditions and industry trends.

  • Agricultural Research and Development: They play a critical role in advancing scientific knowledge, technological innovation, and sustainable practices in agriculture. Their work contributes to increasing agricultural productivity, improving food security, promoting environmental sustainability, and enhancing livelihoods for farmers and rural communities around the world.

Courses

School of Computing Courses

Plant Production Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific plant production courses available at this time***

Plant Production and Protection/Environment and Natural Resources Program, B.S.


How is Computing Applied?

 

  • Environmental Modeling: Computational models simulate natural processes, such as climate patterns, hydrology, and ecosystem dynamics.

  • Environmental Monitoring Sensors: Sensor networks collect data on air quality, water quality, temperature, and other environmental parameters.

  • Air and Water Quality Modeling: Computational models simulate the dispersion of pollutants in the atmosphere and water bodies.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Agri-Tech Entrepreneur: They play a vital role in driving innovation, entrepreneurship, and transformational change in the agricultural sector. They harness the power of technology, creativity, and business acumen to address global challenges such as food security, sustainable agriculture, and rural development, while also creating economic opportunities and driving positive social and environmental impact.

  • Environmental Consulting: They are in charge of helping clients address environmental challenges, manage regulatory requirements, and achieve sustainability goals. By providing expertise, technical support, and innovative solutions, environmental consultants contribute to environmental protection, resource conservation, and sustainable development across various sectors and industries.

  • Environmental Data Analyst: They play a crucial role in leveraging data-driven approaches and analytical techniques to understand, monitor, and manage environmental systems and inform evidence-based decision-making in environmental science, policy, and management.

Courses

School of Computing Courses

Plant Production Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 

***Note: there are no specific plant production courses available at this time***

Rangeland Ecology and Watershed Management, B.S.


How is Computing Applied?

 

  • Hydrological Modeling: Computer-based hydrological models simulate water movement, runoff, and groundwater recharge in watersheds.

  • Oil Erosion Modeling: Erosion models use computing technology to predict soil erosion rates and identify areas prone to erosion.

  • Water Resource Allocation: Computing systems assist in water resource allocation and management by tracking water rights, usage, and availability within watersheds.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Environmental Data Scientist: They play a critical role in leveraging data science techniques, computational tools, and interdisciplinary approaches to address environmental challenges, advance scientific knowledge, and promote sustainability in environmental management and decision-making.

  • Natural Resource Data Analyst: They play a crucial role in leveraging data science techniques, computational tools, and interdisciplinary approaches to analyze, interpret, and manage natural resource data. They contribute to sustainable resource management, conservation planning, and environmental stewardship by providing data-driven insights and solutions to address complex natural resource challenges.

Courses

School of Computing Courses

Rangeland Ecology Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

 

Basic Computing

COMP 3000

 

Advanced Computing

COMP 3500

ESS 4001: Analysis of Nature's Data

ENR 4525: Environmental Data Analysis

Computing Elective

 

 

Experiential Learning

COMP 4000

ENR 4970: ENR Internship

Wildlife and Fisheries Biology and Management, B.S.


How is Computing Applied?

 

  • Aquatic Modeling: Aquatic ecosystem modeling software helps manage fisheries, predict population responses to changing environmental conditions, and assess the impact of fishing regulations.

  • Simulation Models: Computer-based simulation models are used to evaluate the effects of various management scenarios on wildlife populations, ecosystems, and fish stocks.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Remote Sensing Specialist: They utilize satellite, aerial, or drone-based remote sensing technologies to collect and analyze data about the Earth's surface, atmosphere, and oceans. They interpret imagery and sensor data to monitor environmental changes, assess natural resources, and support decision-making in areas such as land use planning, agriculture, forestry, environmental conservation, and disaster management.

  • Aquatic Ecologist: They study freshwater and marine ecosystems, including rivers, lakes, wetlands, estuaries, and oceans, to understand their structure, function, and dynamics. They investigate interactions between aquatic organisms, water quality, habitat conditions, and human activities to inform conservation, restoration, and management efforts aimed at preserving aquatic biodiversity and ecosystem services.

  • Wildlife/Fisheries Research Scientist: They conduct scientific studies and investigations to understand the ecology, behavior, population dynamics, and habitat requirements of wildlife species and fish populations. They conduct field research, collect biological data, and analyze patterns and trends to inform conservation, management, and sustainable use of wildlife and fisheries resources.

Courses

School of Computing Courses

ZOO Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

ZOO 4530: R Intro for Wildlife Ecology

Basic Computing

COMP 3000

ZOO 5890-13: Essential Bioinformatics

ZOO: Applied Bioinformatics

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

Zoology, B.S.


How is Computing Applied?

 

  • Data Collection and Analysis: Zoologists use computers to collect, organize, and analyze data related to animal behavior, population dynamics, genetics, and ecology.

  • Laboratory Equipment Control: Computing plays a role in controlling and monitoring laboratory equipment.

  • Ecological Modeling: Zoologists create ecological models using software to predict population dynamics, evaluate the impact of environmental changes, and assess the effectiveness of conservation measures.


Jobs that can be achieved with this major combined with a computing minor are:

 

  • Zoological Data Scientist: They apply data science techniques and analytical methods to address challenges related to the management, conservation, and welfare of animals in zoological settings. They analyze large datasets collected from zoos, aquariums, and wildlife reserves to gain insights into animal behavior, health, genetics, population dynamics, and environmental interactions.

  • Conservation Scientist: They conduct research and apply scientific principles to conserve and protect natural ecosystems, wildlife species, and biodiversity. They study the factors threatening ecosystems and species, develop conservation strategies, and collaborate with stakeholders to implement conservation actions that promote sustainable management of natural resources and mitigate environmental degradation.

  • Wildlife Rehabilitation Data Manager: They oversee the collection, management, and analysis of data related to the care, treatment, and outcomes of wildlife undergoing rehabilitation. They maintain databases, develop protocols, and use data analysis techniques to track individual animals, assess rehabilitation success, and improve practices for the treatment and release of injured, orphaned, or distressed wildlife.

Courses

School of Computing Courses

ZOO Courses

Computing in Society

COMP 2000

 

Programming

COMP 2500

COCS 1010: Introduction to Computer Science

ZOO 4530: R Intro for Wildlife Ecology

Basic Computing

COMP 3000

ZOO 5890-13: Essential Bioinformatics

ZOO: Applied Bioinformatics

Advanced Computing

COMP 3500

 

Computing Elective

 

 

Experiential Learning

COMP 4000

 

 


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Dept. 3395
1000 E. University Ave.
Laramie, WY 82071

Phone: +1 (307) 766-5299
Email: uwyo-soc@uwyo.edu

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