"Immersive VR content that allows users to experience fire situations that may occur during alcohol lamp experiments, learning safety protocols such as ignition methods, evacuation procedures, and prevention steps in a step-by-step manner"
Immersive Science Learning
Safe Experimental Environment
VR-Based Repetitive Learning
INTRO
Experiment Safety Education · VR Experience Learning · Fire Prevention Training School laboratory classes involve the use of various equipment and materials such as alcohol lamps, burners, and chemical reagents, which always pose risks of safety accidents like fires, chemical spills, and burns. However, traditional safety education has been theory-based, lacking opportunities for students to directly experience and practice how to respond in real accident scenarios. As a result, safety protocols are often memorized superficially, and students may not develop the ability to respond quickly and accurately in emergency situations.
SOLUTION :
Safety education in school laboratory classes requires an immersive learning experience that combines theory and hands-on practice, enabling students to directly experience hazardous situations and learn safe response methods through innovative educational tools.
IMXR Alcohol Lamp Accident VR Content has been developed using immersive virtual reality (VR) technology to allow students to experience safety accidents in a realistic environment, learn how to respond to fire outbreaks, and practice prevention procedures. This content goes beyond simple safety education, aiming to enhance students' safety awareness and response capabilities through immersive experiences, improving their understanding and attention to laboratory safety.
Experience Duration
Supported Language
Hardware
Approximately 10 minutes
Korean
HMD
Alcohol Lamp Accident VR Content Composition
The content is designed to allow participants to experience a fire accident during a class, learn about incorrect response methods, and practice proper prevention measures. Through the user interface (UI), participants can follow guidance to make rescue calls or extinguish fires, receiving visual and auditory feedback to reinforce safety awareness and improve accident prevention skills.
Failure to extinguish fire due to incorrect response to a fire during class
01. Physics and Particle-Based Simulation: To realistically reproduce physical phenomena such as ignition, spread, and explosion—key hazards in alcohol lamp accidents—physics-based simulation technology and particle systems are utilized together. The evaporation of alcohol, the resulting flammable vapor, and the spread of flames are meticulously implemented, reflecting flame speed, range, and surrounding gas reactivity to simulate responses close to real accident scenarios.
02. 360-Degree Perspective Switching: To provide a deeper understanding of the causes and consequences of alcohol lamp accidents, a 360-degree perspective switching function allows users to freely change viewpoints during the experience. This function is not limited to a single user perspective but is designed to enable observation and analysis from various positions and roles, such as a teacher, a student participating in the experiment, or a third-party observer. From the student perspective, users can directly experience igniting the alcohol lamp and clearing nearby objects. From the teacher perspective, users can assess the importance of surrounding safety management and the appropriateness of response methods. From a third-party perspective, users can objectively observe how risk factors spread within the laboratory environment. This multi-perspective approach goes beyond simple accident reenactment, playing a significant role in systematically learning the essence of accident prevention and safety education.
Third-Party Student Perspective
Participating Student Perspective
Teacher Perspective
03. Controller-Based Interaction: Users can directly ignite the alcohol lamp and move objects that pose fire risks within the VR environment through controller-based interactions. By enabling hands-on experiences akin to real actions, this active interaction facilitates "learning through experience" rather than passive observation, enhancing the effectiveness of accident prevention education.
Alcohol Lamp Accident VR Content Features
01. Realistic Laboratory Environment: Participants feel as if they are attending an actual class, experiencing scenarios where a teacher conducts a lesson and students cause an alcohol lamp accident through mischief. The laboratory and hallway are designed to reflect real-world dimensions, with detailed classroom decorations and equipment, providing a highly realistic virtual environment.
02. Fire Accident Risk Experience: By experiencing fire accidents that should not occur in real life within a virtual environment, participants can visually confirm and directly experience the dangers, heightening risk awareness and strengthening safety consciousness.
03. Effective Prevention Measures: In an actual fire, the most critical actions are reporting the incident and evacuating quickly. In the content, participants actively shout for help as guided, engaging more cognitive resources than simply listening or reading, which enhances memory retention and learning effectiveness.
04. Sense of Achievement: Aiming to improve inquiry-based scientific thinking, this experiential content enables repetitive learning and comparative experiments in a virtual laboratory. Instead of repeating a single experiment, two mini-experiment scenarios centered on acid-base titration allow users to experience different conditions and situations. Users can directly set or experience changes in indicators, concentrations, and volumes, visually confirming reaction differences based on variables.
If you have any questions about the content of Samwoo Immersion or have any inquiries regarding purchase, You can get more detailed information and help with purchase through the 'Contact Us' button below.
Learn Fire Accident Prevention Methods
Alcohol Lamp Accident Experience VR Content
IMXR® Safety Experience VR Content - Alcohol Lamp Accident
"Immersive VR content that allows users to experience fire situations that may occur during alcohol lamp experiments, learning safety protocols such as ignition methods, evacuation procedures, and prevention steps in a step-by-step manner"
INTRO
Experiment Safety Education · VR Experience Learning · Fire Prevention TrainingSchool laboratory classes involve the use of various equipment and materials such as alcohol lamps, burners, and chemical reagents, which always pose risks of safety accidents like fires, chemical spills, and burns.
However, traditional safety education has been theory-based, lacking opportunities for students to directly experience and practice how to respond in real accident scenarios. As a result, safety protocols are often memorized superficially, and students may not develop the ability to respond quickly and accurately in emergency situations.
SOLUTION :
Safety education in school laboratory classes requires an immersive learning experience that combines theory and hands-on practice, enabling students to directly experience hazardous situations and learn safe response methods through innovative educational tools.
IMXR Alcohol Lamp Accident VR Content has been developed using immersive virtual reality (VR) technology to allow students to experience safety accidents in a realistic environment, learn how to respond to fire outbreaks, and practice prevention procedures. This content goes beyond simple safety education, aiming to enhance students' safety awareness and response capabilities through immersive experiences, improving their understanding and attention to laboratory safety.
Alcohol Lamp Accident VR Content Composition
The content is designed to allow participants to experience a fire accident during a class, learn about incorrect response methods, and practice proper prevention measures. Through the user interface (UI), participants can follow guidance to make rescue calls or extinguish fires, receiving visual and auditory feedback to reinforce safety awareness and improve accident prevention skills.
Alcohol Lamp Accident VR Content Specialized Technologies
01. Physics and Particle-Based Simulation: To realistically reproduce physical phenomena such as ignition, spread, and explosion—key hazards in alcohol lamp accidents—physics-based simulation technology and particle systems are utilized together. The evaporation of alcohol, the resulting flammable vapor, and the spread of flames are meticulously implemented, reflecting flame speed, range, and surrounding gas reactivity to simulate responses close to real accident scenarios.
02. 360-Degree Perspective Switching: To provide a deeper understanding of the causes and consequences of alcohol lamp accidents, a 360-degree perspective switching function allows users to freely change viewpoints during the experience. This function is not limited to a single user perspective but is designed to enable observation and analysis from various positions and roles, such as a teacher, a student participating in the experiment, or a third-party observer. From the student perspective, users can directly experience igniting the alcohol lamp and clearing nearby objects. From the teacher perspective, users can assess the importance of surrounding safety management and the appropriateness of response methods. From a third-party perspective, users can objectively observe how risk factors spread within the laboratory environment. This multi-perspective approach goes beyond simple accident reenactment, playing a significant role in systematically learning the essence of accident prevention and safety education.
03. Controller-Based Interaction: Users can directly ignite the alcohol lamp and move objects that pose fire risks within the VR environment through controller-based interactions. By enabling hands-on experiences akin to real actions, this active interaction facilitates "learning through experience" rather than passive observation, enhancing the effectiveness of accident prevention education.
Alcohol Lamp Accident VR Content Features
01. Realistic Laboratory Environment: Participants feel as if they are attending an actual class, experiencing scenarios where a teacher conducts a lesson and students cause an alcohol lamp accident through mischief. The laboratory and hallway are designed to reflect real-world dimensions, with detailed classroom decorations and equipment, providing a highly realistic virtual environment.
02. Fire Accident Risk Experience: By experiencing fire accidents that should not occur in real life within a virtual environment, participants can visually confirm and directly experience the dangers, heightening risk awareness and strengthening safety consciousness.
03. Effective Prevention Measures: In an actual fire, the most critical actions are reporting the incident and evacuating quickly. In the content, participants actively shout for help as guided, engaging more cognitive resources than simply listening or reading, which enhances memory retention and learning effectiveness.
04. Sense of Achievement: Aiming to improve inquiry-based scientific thinking, this experiential content enables repetitive learning and comparative experiments in a virtual laboratory. Instead of repeating a single experiment, two mini-experiment scenarios centered on acid-base titration allow users to experience different conditions and situations. Users can directly set or experience changes in indicators, concentrations, and volumes, visually confirming reaction differences based on variables.
H/W Solution
IMXR® Alcohol Lamp Accident VR Content Case Study
If you have any questions about the content of Samwoo Immersion or have any inquiries regarding purchase, You can get more detailed information and help with purchase through the 'Contact Us' button below.
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