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Exploring Rotational Inertia Classroom Kit
Item #96-1011
$149.00
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Hands-on rotational inertia and mass distribution lab activity kit
Help students feel rotational inertia—not just calculate it. Arbor Scientific’s exclusive, Exploring Rotational Inertia Classroom Kit turns a challenging rotational dynamics topic into hands-on, intuitive investigations students can run successfully in a single class period. With tactile components and visual outcomes, learners discover how mass distribution—not just mass—determines rotational inertia.
Designed as a true classroom kit, it supports small-group work and multiple investigations that build from intuition to formal understanding. Students directly compare linear vs. rotational inertia, observe rotational “collisions,” and extend classic inclined-plane demos into the rotational domain.
Why Teachers Love the Exploring Rotational Inertia Classroom Kit
- Makes an abstract idea tangible: Students physically feel differences in rotational inertia using custom components, while the clear disks let them see exactly how mass is distributed as they rotate.
- Built for group-based labs: One kit supports 6 lab groups and 4 distinct activities, maximizing class participation.
- Arbor-exclusive design: Custom axles and matched components are purpose-built for instruction—not improvised.
- Concept-first, math-ready: Develops intuition before equations, improving student success with rotational dynamics.
Resources
Product Details
What You Can Teach with the Rotational Inertia Kit
Use in high school and introductory college physics for:
- Rotational inertia (moment of inertia)
- Mass distribution vs. total mass
- Linear vs. rotational inertia (conceptual comparison)
- Angular speed changes from rotational “collisions”
- Rolling motion on an inclined plane
- System behavior with mixed inertias
How It Works
- Tactile inertia comparison: Students spin disks using custom fixed axles and feel how different steel-sphere arrangements change rotational inertia—even when total mass stays the same.
- Mass vs. distance insight: Demonstrates that inertia increases when mass is farther from the axis, highlighting the key difference between linear and rotational inertia.
- Rotational collisions: Students suspend a spinning disk, drop another disk onto it, and observe how angular speed changes after the interaction.
- Free-wheeling investigations: Long, low-friction axles allow disks to rotate freely for extended observations and comparisons.
- Inclined-plane extensions: Run classic disk races down a ramp, then link disks with different inertias and roll the system together to show how unequal inertias cause veering and asymmetric motion.
This kit gives students a rare opportunity to experience rotational inertia directly—building intuition that carries into equations, problem-solving, and deeper rotational dynamics studies.
Products being sold are not toys. They are for Educational / Laboratory use only. They are not for use by children 12 and under.
Product Specifications
Specs:
Disk dimensions: 4.5" diameter, 1" wide
Steel spheres: 3/4" diameter
Fixed axle: 3" long when assembled
Smooth axle: 6" long, 1/8" diameter
Roll of string: 25 meters
What's Included:
12 clear variable inertia disks (6 sets of 2)
48 steel spheres (6 sets of 8)
String for rotational inertia “collisions”
6 red and 6 blue custom-designed 3D printed fixed axles
6 stainless steel smooth axles
50 o-rings (approx.)
Warning: California Residents
WARNING: Cancer & Reproductive Harm — www.P65Warnings.ca.gov
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