Virtual Reality (VR)

Virtual Reality (VR) refers to a computer-generated, immersive, and interactive experience that simulates a three-dimensional environment, often with the aid of specialized hardware such as headsets and controllers. In a VR environment, users can engage with and explore virtual worlds that feel realistic and responsive, creating opportunities for enhanced teaching and learning experiences.

In higher education, virtual reality holds tremendous potential to reimagine traditional teaching methods and engage students in new ways. Education in VR has the potential to support: 

  1. Immersive Learning Experiences: VR enables faculty to create immersive and realistic learning environments that transport students beyond the confines of the physical classroom. Through VR, students can explore historical sites, scientific phenomena, cultural landmarks, or simulated scenarios that are otherwise inaccessible. 

  2. Experiential and Simulation-based Learning: VR allows students to actively participate in simulated experiences and realistic scenarios relevant to their field of study. For example, medical students can practice surgical procedures, social work students can engage in counseling simulations, or dental students can practice treatment discussions. VR-based simulations offer a safe and controlled environment for students to develop skills, decision-making abilities, and critical thinking.

  3. Visualization of Complex Concepts: VR can help students grasp complex and abstract concepts by visualizing them in three-dimensional space. For instance, students can explore mathematical models, atomic structures, or physical phenomena through interactive VR simulations. This visual representation may aid learners to untangle complex concepts.

  4. Collaborative and Distance Learning: VR can facilitate collaborative learning experiences, even in remote or distributed settings. Students can gather in a shared virtual environment, collaborate on projects, conduct group discussions, or work on problem-solving tasks. This fosters teamwork and cross-cultural exchange and facilitates active learning beyond the limitations of physical spaces. 

  5. Cultural and Global Understanding: VR can promote cultural competence and global awareness by allowing students to virtually experience different cultures, historical periods, or geographic locations. Through VR, students can visit museums, explore distant regions, or engage with diverse communities, fostering empathy and intercultural understanding, and broadening their perspectives.

  6. Accessibility and Inclusivity: VR can address accessibility challenges by providing inclusive learning experiences. Students with physical limitations or geographical constraints can engage in virtual field trips, laboratory experiments, or experiential learning activities that may not be feasible otherwise. VR can create equal opportunities for all students to access educational resources and experiences, provided the VR technologies in use do not present barriers to access.

The FCTL is committed to supporting faculty in integrating VR effectively into their teaching practices. We are available to provide support and guidance, answer questions, and collaborate with faculty in using or wanting to use VR to create engaging and transformative learning environments.

How to Access VR Headsets

Meta Quest 2 Virtual Reality Headsets are available for faculty to check out from the Faculty Center for Teaching and Learning.

If interested in borrowing one or more headsets for experimental or emerging uses in teaching for an academic semester or year, please email facultycenter@umaryland.edu. Please note: there are a limited number available. 

Not familiar with VR technology? No worries! The FCTL team can offer training sessions to guide you through using VR in your courses. We are here to support you every step of the way.

VR Use Cases

The following list details several examples of discipline and instructional methods using VR. The table is neither exhaustive nor exclusive and instructors interested in using VR for teaching should recognize the need for discipline-specific thoughtful considerations. For instance, law professors might need to ensure the purposeful use of VR, alignment with learning objectives, and appropriate pedagogical strategies, supported by training and technical assistance. Similarly, social work professors might need to address ethical implications, provide guidance, and align VR use with objectives and professional standards. Moreover, pharmacy, nursing, medical, dental, and graduate school professors should all ensure alignment with objectives, curriculum requirements, and professional standards while offering necessary technical support, training, and opportunities for reflection.

Instructional Method Discipline Example VR Use

Immersive Simulations

Law

VR can provide students with immersive simulations of real-world legal scenarios, such as courtroom proceedings, negotiations, or client interactions. This allows students to experience and practice legal skills in a realistic and engaging virtual environment, promoting active learning and skill development.

Virtual Courtrooms

Law

Law professors can create virtual courtrooms where students can participate in mock trials or moot court competitions. VR technology can simulate the courtroom setting, enabling students to develop advocacy skills, improve public speaking, and gain firsthand experience of courtroom procedures.

Virtual Law Firm

Law

Professors can create virtual law firm environments where students can engage in collaborative problem-solving, legal research, case analysis, and client representation. This fosters teamwork, critical thinking, and decision-making skills, while also providing exposure to the dynamics of legal practice.

Evidence Visualization

Law

VR can be used to visualize complex legal evidence, such as crime scenes, accident reconstructions, or forensic analysis. Students can examine and interact with the virtual evidence, enhancing their understanding of the facts and legal issues involved in a case.

Legal Research and Resource Exploration

Law

VR can offer immersive experiences where students can explore virtual law libraries, interact with legal databases, and access online resources. This can facilitate more engaging and interactive legal research, allowing students to navigate and analyze legal information in a dynamic and realistic virtual environment.

Professional Development and Ethics Training

Law

VR can be used to simulate challenging ethical dilemmas that lawyers may encounter in practice. Students can engage in virtual scenarios where they must make difficult decisions and navigate ethical considerations, fostering ethical awareness and professional development.

Comparative Legal Systems

Law

VR can transport students to different legal systems and jurisdictions, allowing them to observe and compare legal practices, court proceedings, and cultural influences. This provides students with a broader perspective on legal systems, promoting cross-cultural understanding and critical analysis.

Guest Lectures and Field Trips

Law

VR can bring guest speakers, legal experts, or practitioners into the virtual classroom, eliminating geographical constraints. It can also provide virtual field trips to courthouses, law offices, or legal landmarks, offering students unique insights and experiences without physical limitations.

Empathy Building

Social Work

VR can be used to simulate real-life situations and experiences that help students develop empathy and understand diverse perspectives. For example, students can engage in immersive simulations that depict the lived experiences of individuals facing various social challenges, such as homelessness, poverty, or discrimination. This can promote empathy, cultural competence, and a deeper understanding of the experiences of marginalized populations.

Role-Playing and Skill Development

Social Work

VR can provide a safe and controlled environment for students to practice and develop their social work skills. Students can engage in virtual role-playing scenarios, where they interact with virtual clients and practice communication, assessment, and intervention techniques. VR can also simulate challenging situations, such as crisis interventions or conflict resolution, allowing students to enhance their skills in a realistic yet controlled setting.

Cultural Competence and Diversity Training

Social Work

VR can expose students to different cultural contexts and communities, helping them understand the diverse backgrounds and perspectives of the individuals they will work with as social workers. Students can virtually explore different cultural environments, interact with diverse virtual populations, and gain insights into cultural nuances, traditions, and challenges.

Field Placement Preparation

Social Work

VR can prepare students for their field placements by simulating common scenarios they may encounter in practice. Students can engage in virtual field placement experiences, such as conducting home visits, participating in interdisciplinary team meetings, or engaging with community resources. This can help students develop confidence, familiarity with the work environment, and an understanding of professional boundaries.

Ethics and Boundaries Training

Social Work

VR can create immersive scenarios where students can navigate ethical dilemmas and challenges commonly faced by social workers. Students can practice making decisions in complex situations, maintain professional boundaries, and navigate ethical considerations in a supportive virtual environment. This can enhance their ethical decision-making skills and ethical awareness.

Community Assessment and Program Development

Social Work

VR can simulate community environments, allowing students to virtually explore and assess community resources, needs, and challenges. Students can engage in virtual community assessments, conduct interviews with virtual community members, and develop community intervention plans. This can provide hands-on experience in community engagement and program development.

Supervision and Reflective Practice

Social Work

VR can facilitate supervision and reflective practice by creating virtual environments where students can engage in self-reflection, receive feedback, and engage in reflective discussions with peers and instructors. This promotes self-awareness, critical thinking, and professional growth.

Medication Administration Simulations

Pharmacy

VR can provide realistic simulations of medication administration processes, allowing students to practice essential skills such as preparing and administering medications, dosage calculations, and sterile compounding. Students can engage in virtual scenarios that mimic hospital or community pharmacy settings, promoting hands-on practice in a safe and controlled environment.

Clinical Case Scenarios

Pharmacy

VR can simulate various clinical case scenarios, enabling students to apply their knowledge and make critical decisions in real-life patient care situations. By immersing students in virtual clinical environments, they can practice patient assessment, diagnosis, and treatment planning, developing their clinical reasoning and problem-solving skills.

Pharmaceutical Compounds Visualization

Pharmacy

VR can be used to visualize and interact with complex three-dimensional molecular structures and drug compounds. This immersive experience allows students to explore the structural characteristics, mechanisms of action, and interactions of different drugs. It enhances their understanding of pharmacokinetics, pharmacodynamics, and drug-drug interactions.

Pharmacotherapy Simulations

Pharmacy

VR can simulate patient consultations, where students engage with virtual patients to assess medical histories, identify drug-related problems, and provide appropriate pharmacotherapy recommendations. This interactive approach enables students to practice patient communication, medication counseling, and therapeutic decision-making.

Virtual Pharmacy Practice Environments

Pharmacy

VR can create virtual community or hospital pharmacy settings where students can engage in tasks such as prescription processing, inventory management, patient counseling, and medication reconciliation. This immersive experience allows students to become familiar with pharmacy workflows, regulations, and patient interactions.

Interprofessional Collaboration

Pharmacy

VR can facilitate interprofessional education by creating virtual team-based scenarios involving healthcare professionals from various disciplines. Pharmacy students can collaborate virtually with physicians, nurses, and other healthcare professionals to solve complex patient cases, fostering teamwork, communication, and understanding of interprofessional roles.

Drug Information Retrieval and Research

Pharmacy

VR can simulate virtual libraries or databases where students can search for drug information, access research articles, and engage in virtual research activities. This enhances students' ability to navigate pharmaceutical literature, critically evaluate evidence, and stay updated with the latest research in the field.

Medication Safety Training

Pharmacy

VR can be used to train students on medication safety practices, such as error prevention, adverse drug event management, and medication reconciliation. Students can engage in virtual scenarios that highlight potential medication errors, allowing them to develop skills in error detection, prevention, and patient safety.

Clinical Simulations

Nursing

VR can provide realistic clinical simulations where nursing students can practice patient assessments, nursing interventions, and critical decision-making in a controlled virtual environment. Students can engage in virtual scenarios that mimic hospital units, emergency rooms, or community settings, allowing them to apply their knowledge and skills in realistic patient care situations.

Patient Care Scenarios

Nursing

VR can simulate diverse patient care scenarios, enabling students to develop their clinical reasoning and problem-solving skills. Students can engage with virtual patients, assess their conditions, prioritize care, and implement appropriate nursing interventions. This immersive experience promotes critical thinking and improves their ability to provide safe and effective nursing care.

Medication Administration Training

Nursing

VR can be used to provide training in medication administration, including dosage calculations, drug interactions, and proper administration techniques. Students can practice preparing and administering medications in a virtual setting, improving their accuracy and competency in medication administration processes.

Procedural Training

Nursing

VR can simulate various nursing procedures, such as wound care, catheterization, or intravenous therapy. Students can practice these procedures in a virtual environment, gaining hands-on experience and developing their procedural skills before performing them on actual patients.

Communication and Interprofessional Collaboration

Nursing

VR can facilitate training in effective communication and interprofessional collaboration. Students can engage in virtual interactions with patients, family members, and members of the healthcare team, improving their communication skills, teamwork, and collaboration with other healthcare professionals.

Cultural Competence and Diversity Training

Nursing

VR can expose nursing students to diverse cultural and socio-economic backgrounds, helping them understand the perspectives and needs of patients from different cultures. Students can engage in virtual scenarios that simulate culturally diverse patient encounters, promoting cultural competence and sensitivity in nursing practice.

Disaster Response Training

Nursing

VR can simulate emergency situations and disaster response scenarios, allowing students to practice their emergency management and triage skills. Students can engage in virtual simulations of mass casualty incidents or natural disasters, enhancing their ability to respond effectively in high-stress situations.

Ethical Dilemma Scenarios 

Nursing

VR can create immersive scenarios that present ethical dilemmas commonly faced by nurses. Students can engage in virtual discussions and decision-making processes, grappling with complex ethical considerations and developing their ethical reasoning and decision-making skills.

Anatomy and Physiology Education

Medicine

VR can provide highly detailed and immersive 3D visualizations of human anatomy, allowing students to explore and interact with virtual anatomical structures. Students can study complex anatomical systems, such as the cardiovascular or nervous system, in a more engaging and interactive manner, enhancing their understanding of anatomical relationships and spatial concepts.

Surgical Training and Simulation

Medicine

VR can offer realistic surgical simulations, allowing medical students to practice surgical techniques and procedures in a virtual environment. Students can perform virtual surgeries, practice suturing, and develop their hand-eye coordination and dexterity. This can provide valuable practice before transitioning to real surgical procedures.

Patient Interaction and Clinical Skills

Medicine

VR can simulate patient encounters and clinical scenarios, enabling students to develop their clinical skills, patient communication, and diagnostic abilities. Students can engage with virtual patients, take medical histories, perform physical examinations, and practice clinical decision-making, fostering realistic patient interactions in a controlled environment.

Medical Imaging Interpretation

Medicine

VR can facilitate the interpretation of medical imaging, such as X-rays, CT scans, or MRI scans. Students can virtually examine and manipulate medical images, enhancing their skills in identifying abnormalities, making diagnoses, and understanding radiological findings.

Emergency Medicine and Trauma Training

Medicine

VR can simulate emergency situations, trauma scenarios, and resuscitation simulations, allowing students to practice their skills in high-pressure, time-sensitive environments. Students can engage in virtual emergency response scenarios, develop teamwork and leadership skills, and make critical decisions in real-time.

Virtual Rounds and Case Discussions

Medicine

VR can recreate clinical settings and enable virtual rounds or case discussions. Students can participate in virtual multidisciplinary team meetings, present cases, and engage in discussions about diagnosis, treatment plans, and patient management. This promotes collaborative learning, critical thinking, and effective communication.

Cultural Competence and Diversity Training

Medicine

VR can expose medical students to diverse patient populations, helping them understand cultural nuances, social determinants of health, and health disparities. Students can engage in virtual encounters with patients from different cultural backgrounds, developing cultural competence and empathy in their medical practice.

Medical Ethics and Professionalism

Medicine

VR can present medical students with ethical dilemmas and challenging situations commonly encountered in clinical practice. Students can engage in virtual scenarios where they navigate complex ethical considerations and make decisions aligned with professional and ethical standards. This promotes ethical awareness, professionalism, and ethical decision-making skills.

Dental Anatomy and Occlusion

Dentistry

VR can provide interactive and immersive experiences for students to study dental anatomy, tooth morphology, and occlusion. Students can explore virtual 3D models of teeth, manipulate them, and examine occlusal relationships. This promotes a deeper understanding of dental structures and their functional relationships.

Dental Procedures and Techniques

Dentistry

VR can simulate dental procedures, allowing students to practice techniques in a virtual environment. Students can perform virtual dental treatments, such as tooth preparation, restoration placement, and orthodontic wire placement. This provides an opportunity to develop motor skills, hand-eye coordination, and spatial awareness.

Radiographic Interpretation

Dentistry

VR can simulate the interpretation of dental radiographs, including intraoral and panoramic images. Students can virtually examine and interpret radiographic findings, aiding in the diagnosis of dental conditions and pathologies. This enhances students' skills in identifying abnormalities and making accurate diagnoses.

Dental Simulations and Patient Interactions

Dentistry

VR can create virtual patient encounters where students can practice patient communication, case presentations, and treatment planning. Students can engage with virtual patients, take medical histories, perform virtual examinations, and practice treatment discussions. This fosters realistic patient interactions and improves communication skills.

Dental Implant Planning and Placement

Dentistry

VR can assist in implant dentistry by simulating the planning and placement of dental implants. Students can virtually plan implant cases, assess bone quality and quantity, and practice implant placement techniques. This provides a safe and controlled environment for students to develop their skills in implant dentistry.

Endodontic Training

Dentistry

VR can offer simulations of root canal procedures, allowing students to practice endodontic techniques. Students can virtually navigate root canals, perform instrumentation, and practice obturation. This provides an opportunity to improve their skills in endodontic procedures in a realistic yet controlled setting.

Virtual Dental Laboratory

Dentistry

VR can simulate dental laboratory environments where students can practice dental laboratory techniques, such as crown preparation, waxing, and fabrication of dental prosthetics. Students can virtually manipulate dental materials and instruments, enhancing their proficiency in dental laboratory procedures.

Dental Emergency Management

Dentistry

VR can create scenarios for dental emergency training, such as management of avulsed teeth, dental trauma, or medical emergencies in the dental office. Students can practice their skills in assessing and managing dental emergencies in a virtual setting, enhancing their ability to respond effectively in urgent situations.

Immersive Research Environments

Graduate

VR can create virtual research environments that allow graduate students to explore and interact with complex research settings. This can include virtual laboratories, field sites, or specialized equipment setups. Students can conduct virtual experiments, collect data, and engage in scientific inquiry within a simulated research environment.

Professional Skill Development

Graduate

VR can provide simulations and scenarios for graduate students to develop professional skills relevant to their fields. This can include practicing presentation skills, participating in virtual conferences or networking events, engaging in mock interviews, or conducting virtual consultations with clients or stakeholders. Such experiences can enhance students' communication, teamwork, and leadership abilities.

Complex Data Visualization

Graduate

VR can enable graduate students to collaborate on research projects with peers from different locations. They can meet in virtual spaces to discuss and work on shared research objectives, share resources and data, and engage in real-time collaboration. This promotes interdisciplinary collaboration and expands opportunities for diverse perspectives and expertise.

Professional Ethics Training

Graduate

VR can simulate challenging ethical scenarios or dilemmas that graduate students may encounter in their respective fields. Students can engage in virtual simulations where they navigate complex ethical considerations and make decisions aligned with professional and ethical standards. This promotes ethical awareness, critical thinking, and responsible conduct of research or professional practice.

Fieldwork and Site Visits

Graduate

VR can offer virtual fieldwork experiences or site visits, especially for disciplines that involve studying distant or inaccessible locations. Students can virtually explore archaeological sites, natural habitats, historical landmarks, or remote research locations. This allows them to observe and interact with environments they may not have physical access to, expanding their understanding and enriching their research experiences.

Professional Development and Mentorship

Graduate

VR can provide virtual mentorship and professional development opportunities for graduate students. They can engage with virtual mentors, renowned experts, or alumni in their respective fields to receive guidance, career advice, and insights into professional pathways. This can broaden students' professional networks and expose them to diverse perspectives and expertise.

Conference and Presentation Practice

Graduate

VR can simulate conference settings or presentation environments where graduate students can practice delivering research presentations or participating in academic conferences. Students can engage in virtual presentations, receive feedback, and refine their communication and presentation skills in a realistic yet controlled setting.