Laboratory - General Chemistry Acid-Base Titration VR Content
IMXR® Job Training VR Content
Acid-base titration involves handling acidic and basic solutions, which, if mishandled, can cause skin irritation, chemical burns, or inhalation of harmful vapors. Through VR practice before the actual experiment, students can learn the procedures without handling real chemicals, allowing them to understand procedures and precautions to prevent safety accidents. This VR content allows students to experience acid-base titration firsthand, where they determine the concentration of an acid or base through a neutralization reaction and solve related quizzes.
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Immersive Science Learning | Safe Experimental Environment | VR-Based Repetitive Learning |
INTRO:
Acid-base titration experiments involve concentrated acids or bases, posing potential risks such as skin burns, eye damage, and inhalation hazards. These risks are especially high for inexperienced learners due to potential carelessness. Furthermore, actual experiments require expensive equipment like burettes, pipettes, indicators, and standard solutions, along with precise preparation and management, leading to constraints such as budget issues, preparation time, and material waste.
In particular, acid-base titration combines complex theories like neutralization reactions, molarity calculations, and endpoint determination with practical skills, making it difficult for students to deeply understand the concepts through mere observation or imitation.
Safety Issues in Experiments · Limitations of Materials and Equipment · Need for Improved Educational Effectiveness
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Learning Objectives | Safety Guidelines |
SOLUTION
The IMXR Acid-Base Titration VR content was developed to overcome the limitations of traditional laboratory environments and provide a more effective educational experience.
With the recent advancements in VR technology, precise manipulation, realistic interfaces, and feedback systems have made it possible to simulate complex scientific experiments in virtual space. Immersive VR experiences allow for realistic repetition and help students better understand core concepts. By eliminating the chemical hazards often present in shared educational spaces, this enhanced system offers great advantages in terms of safety and accessibility.
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| Duration | Supported Language | Hardware |
| Approx. 10 minutes | Korean | HMD |
Structure of the Acid-Base Titration VR Content
To enhance immersion, the content starts with a trigger-based interaction tutorial to guide learners naturally. Users identify materials one by one just like in a real lab, learn safety precautions via UI, and are required to wear safety gear themselves. The content incorporates quizzes between steps to reinforce learning. Two key mini-experiments on acid-base titration are included, allowing users to confirm results and finish by writing a report.
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| Tutorial | Material Check | Safety Precautions | Quiz |
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| Create 0.5M NaOH Solution | Determine Acetic Acid in Vinegar | Quiz | Confirm Results & Write Report |
| Structure | Details |
| Tutorial | A stage where users briefly perform the necessary interactions for content play |
| Check Materials | Check necessary materials such as sodium hydroxide, pipette, 250mL Erlenmeyer flask, burette, etc. |
| Experiment Precautions | Explanation of theoretical knowledge such as how to make standard sodium hydroxide solution and why distilled water is added first |
| Quiz Practice | Making standard solution using scale, sodium hydroxide, and distilled water |
Making 0.5M Sodium Hydroxide
Standard Solution | Conduct experiment to determine acetic acid concentration using phenolphthalein indicator |
Determine Acetic Acid
Concentration in Vinegar | Theory explanation including OX quiz and selecting calculation formulas at equivalence point |
| Quiz Practice | Theory explanation including OX quiz and selecting calculation formulas at equivalence point |
Check Results and
Write Report | Check report with details such as vinegar weight, NaOH concentration, volume used, moles of NaOH used, and moles of acetic acid |
Specialized Technology for Acid-Base Titration VR Content
01. Tutorial for Intuitive Interaction: To lower the entry barrier of interactive VR content, a tutorial is provided before the main experiment. This tutorial guides the user on how to use trigger-based interactions. Users can directly experience and learn the basic manipulations such as 'pressing', 'grabbing', 'pulling', and 'moving', allowing for smooth experiment execution even in unfamiliar VR environments.
02. Implementation of Experimental Procedures: All processes and tasks required for the experiment are implemented through trigger-based interactions so users can experience them firsthand. By grabbing and moving volumetric flasks and graduated cylinders, adding reagents, zeroing the scale, and operating the stopcock, users can naturally learn and understand the experimental procedures through direct engagement.
03. Real-Time Reaction Visualization: Visualizes changes in color and pH during the acid-base titration in real time to provide intuitive feedback to users. As the solution drips from the burette, the indicator color changes immediately, and pH values are displayed simultaneously to help users understand the results and accurately determine the endpoint.
04. High-Quality 3D Simulation:Utilizes real-time rendering of Unreal Engine to faithfully recreate the experiment environment and tools in high-resolution 3D graphics. Equipment such as burettes, Erlenmeyer flasks, and pipettes are modeled to reflect real-world size and texture. Liquid movement, light reflection, and material expression are simulated realistically to provide an immersive learning environment. Free camera movement and hand interaction enhance the realism and concentration of the training experience.
Features of Acid-Base Titration VR Content
01. User-Led Experiment Flow: By configuring the entire process using trigger-based interactions, users are guided to explore and choose their actions rather than simply follow instructions. From checking equipment during the preparation stage to injecting solutions and adjusting measurements, learners can actively lead the experiment, enhancing immersion and encouraging self-directed learning.
02. Structured Safety Training Experience: Beyond reproducing the experiment process, the VR experience includes realistic safety procedures such as wearing protective equipment, reviewing safety precautions, and learning proper equipment handling. These steps help users internalize the importance of lab safety and cultivate responsible habits through experiential learning.
03. Enhanced Theory-Practice Linkage: Rather than simply explaining concepts, this content integrates quizzes and real-time conceptual checks into the experiment, ensuring that theory and practice are seamlessly connected. Learners are prompted with conceptual questions during key moments and encouraged to interpret results immediately, helping build lasting understanding.
04. Scenario-Based Experimentation:Designed to promote scientific inquiry and thinking through exploration. Instead of repeating a single experiment, the content provides two mini-scenarios centered on core concepts of acid-base titration. Users can change variables such as indicators, concentrations, and volumes, then observe different outcomes, reinforcing conceptual understanding through comparative learning.
Key Scenes
Implementation Case
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Korea Maritime and Ocean University Learning Lab Implementation (Go to link) |
The Moment You Immerse, You Grow!
Maximize Your Capabilities with XR and AI (X-RAI) Technologies.
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.
Contact Us
📞 Phone Inquiry ㅣ 1600-1663 ✉ Email Inquiry ㅣ info@samwooim.com
* Please be sure to provide your company information and contact details.
📅 Business Hours ㅣ Weekdays 9:30~18:30 * Lunch Time : 12:30 ~ 13:30 (Closed on Saturdays, Sundays and public holidays)
Laboratory - General Chemistry Acid-Base Titration VR Content
IMXR® Job Training VR Content
Acid-base titration involves handling acidic and basic solutions, which, if mishandled, can cause skin irritation, chemical burns, or inhalation of harmful vapors. Through VR practice before the actual experiment, students can learn the procedures without handling real chemicals, allowing them to understand procedures and precautions to prevent safety accidents. This VR content allows students to experience acid-base titration firsthand, where they determine the concentration of an acid or base through a neutralization reaction and solve related quizzes.
INTRO:
Acid-base titration experiments involve concentrated acids or bases, posing potential risks such as skin burns, eye damage, and inhalation hazards. These risks are especially high for inexperienced learners due to potential carelessness. Furthermore, actual experiments require expensive equipment like burettes, pipettes, indicators, and standard solutions, along with precise preparation and management, leading to constraints such as budget issues, preparation time, and material waste.
In particular, acid-base titration combines complex theories like neutralization reactions, molarity calculations, and endpoint determination with practical skills, making it difficult for students to deeply understand the concepts through mere observation or imitation.
Safety Issues in Experiments · Limitations of Materials and Equipment · Need for Improved Educational Effectiveness
SOLUTION
The IMXR Acid-Base Titration VR content was developed to overcome the limitations of traditional laboratory environments and provide a more effective educational experience.
With the recent advancements in VR technology, precise manipulation, realistic interfaces, and feedback systems have made it possible to simulate complex scientific experiments in virtual space. Immersive VR experiences allow for realistic repetition and help students better understand core concepts. By eliminating the chemical hazards often present in shared educational spaces, this enhanced system offers great advantages in terms of safety and accessibility.
Structure of the Acid-Base Titration VR Content
To enhance immersion, the content starts with a trigger-based interaction tutorial to guide learners naturally. Users identify materials one by one just like in a real lab, learn safety precautions via UI, and are required to wear safety gear themselves. The content incorporates quizzes between steps to reinforce learning. Two key mini-experiments on acid-base titration are included, allowing users to confirm results and finish by writing a report.
Making 0.5M Sodium Hydroxide
Standard Solution
Concentration in Vinegar
Write Report
Specialized Technology for Acid-Base Titration VR Content
01. Tutorial for Intuitive Interaction: To lower the entry barrier of interactive VR content, a tutorial is provided before the main experiment. This tutorial guides the user on how to use trigger-based interactions. Users can directly experience and learn the basic manipulations such as 'pressing', 'grabbing', 'pulling', and 'moving', allowing for smooth experiment execution even in unfamiliar VR environments.
02. Implementation of Experimental Procedures: All processes and tasks required for the experiment are implemented through trigger-based interactions so users can experience them firsthand. By grabbing and moving volumetric flasks and graduated cylinders, adding reagents, zeroing the scale, and operating the stopcock, users can naturally learn and understand the experimental procedures through direct engagement.
03. Real-Time Reaction Visualization: Visualizes changes in color and pH during the acid-base titration in real time to provide intuitive feedback to users. As the solution drips from the burette, the indicator color changes immediately, and pH values are displayed simultaneously to help users understand the results and accurately determine the endpoint.
04. High-Quality 3D Simulation:Utilizes real-time rendering of Unreal Engine to faithfully recreate the experiment environment and tools in high-resolution 3D graphics. Equipment such as burettes, Erlenmeyer flasks, and pipettes are modeled to reflect real-world size and texture. Liquid movement, light reflection, and material expression are simulated realistically to provide an immersive learning environment. Free camera movement and hand interaction enhance the realism and concentration of the training experience.
Features of Acid-Base Titration VR Content
01. User-Led Experiment Flow: By configuring the entire process using trigger-based interactions, users are guided to explore and choose their actions rather than simply follow instructions. From checking equipment during the preparation stage to injecting solutions and adjusting measurements, learners can actively lead the experiment, enhancing immersion and encouraging self-directed learning.
02. Structured Safety Training Experience: Beyond reproducing the experiment process, the VR experience includes realistic safety procedures such as wearing protective equipment, reviewing safety precautions, and learning proper equipment handling. These steps help users internalize the importance of lab safety and cultivate responsible habits through experiential learning.
03. Enhanced Theory-Practice Linkage: Rather than simply explaining concepts, this content integrates quizzes and real-time conceptual checks into the experiment, ensuring that theory and practice are seamlessly connected. Learners are prompted with conceptual questions during key moments and encouraged to interpret results immediately, helping build lasting understanding.
04. Scenario-Based Experimentation:Designed to promote scientific inquiry and thinking through exploration. Instead of repeating a single experiment, the content provides two mini-scenarios centered on core concepts of acid-base titration. Users can change variables such as indicators, concentrations, and volumes, then observe different outcomes, reinforcing conceptual understanding through comparative learning.
Key Scenes
Implementation Case
The Moment You Immerse, You Grow!
Maximize Your Capabilities with XR and AI (X-RAI) Technologies.
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.
Contact Us
📞 Phone Inquiry ㅣ 1600-1663 ✉ Email Inquiry ㅣ info@samwooim.com
* Please be sure to provide your company information and contact details.
📅 Business Hours ㅣ Weekdays 9:30~18:30 * Lunch Time : 12:30 ~ 13:30 (Closed on Saturdays, Sundays and public holidays)