Inertia of Motion Model
Product Code : SCL-PLE-11601
The StemAids Inertia of Motion Model is a specialized physics apparatus designed for the empirical study of Newton’s First Law of Motion and the inherent property of objects to maintain their state of uniform motion. Optimized for Primary and Secondary STEM laboratories, it provides a dramatic visual demonstration of dynamic persistence. Manufactured to ISO 9001:2015 standards by durable model ensures standardized instructional delivery for institutional physics and classical mechanics modules.
Technical Specifications
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Tender Specification |
OEM Technical Detail |
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Mechanical System |
High-Tension Compression Spring and Launcher Mechanism |
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Interaction Media |
Integrated Funnel Assembly with a detached Ball specimen |
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Base Construction |
Stable, Low-Vibration foundation for vertical launches |
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Functional Principle |
Newton’s First Law: Persistence of Motion (v=constant) |
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Operational Interface |
Manual spring compression with rapid-release trigger |
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Safety Features |
Durable, lightweight components designed for controlled trajectories |
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Dimensions |
10 x 10 x 15 cm (standard laboratory footprint) |
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ISO Compliance Code |
Manufactured under ISO 9001:2015 Quality Management Systems |
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HS Code |
9023.00.00 (Educational/Demonstrational Physics Apparatus) |
Key Pedagogical Outcomes (Bloom’s Taxonomy Alignment)
- Dynamic Persistence Interface -> Facilitates student visualization of how an object in motion continues along its path even when its primary carrier (the funnel) is decelerated or stopped, supporting Mechanics Module 101 (Understanding).
- Kinetic Energy Transfer modeling -> Enables the physical study of Potential Energy conversion (compressed spring) into Kinetic Energy (upward flight) shared by both objects (Applying).
- Differential Deceleration Analysis -> Supports the Analysis of why the ball continues to ascend while the funnel is "held back," illustrating that the ball’s inertia carries it forward until external forces (gravity/air resistance) act upon it.
- Force-Motion Evaluation -> Allows students to Evaluate real-world safety scenarios, such as the behavior of passengers in a suddenly stopping vehicle or the trajectory of objects launched from moving platforms (Evaluating).
International Logistics & Compliance
- Packaging: Export-grade ISPM-15 compliant protective packaging with internal stabilization to prevent spring fatigue or funnel deformation during transit.
- Documentation: Includes Manufacturer’s Authorization Form (MAF), Certificate of Conformance (CoC), and English Technical User Guides.
- Durability: Tropicalized design with high-tensile spring steel and impact-resistant materials to ensure long-term instructional reliability in diverse climates.
Direct OEM Sourcing Advantages
- Vertical Integration: Total control over spring constant (k) and funnel-to-ball clearance ensures perfectly repeatable trajectories across bulk institutional rollouts.
- Reliability Protocols: Batch-tested for trigger mechanism durability and structural integrity under repeated vertical stress.
- Institutional Support: Guaranteed direct factory availability for replacement ball sets and specialized spring assemblies ensures maximized asset lifecycle and superior long-term ROI.
