The Standard Smart Cart/Metal Track 2.2m system is made up of Wireless Smart Carts and a 2.2 m aluminum track with the accessories package included.
See the Product Description for this item's included accessories.
PASCO Dynamics Systems have been a staple in physics labs for over 25 years. They are an ideal way of investigating mechanics - from velocity and acceleration to Newton’s Laws and Forces to Collisions and Conservation of Momentum and Energy.
Numerous optional accessories expand that functionality even further into harmonic motion, projectile motion, optics and more.
Today you have your choice of tracks (expandable and rugged polycarbonate plastic in 1 m lengths or classic aluminum in 1.2 m or 2.2 m lengths) as well as plastic carts, aluminum carts or a pair of the revolutionary new Smart Carts. You can also choose whether or not to add the accessories package.
This configuration - The Standard Smart Cart/Metal Track 2.2m system is made up of Wireless Smart Carts and a 2.2 m aluminum track with the accessories package included.
- 1x 2.2 m Aluminum Dynamics Track (ME-9779)
- 1x Smart Cart (Red) (ME-1240)
- 1x Smart Cart (Blue) (ME-1241)
- 1x PAScar Cart Mass (set of 2) (ME-6757A)
- 1x Super Pulley with Clamp (ME-9448B)
- 1x IDS Spring Kit (ME-8999)
- 1x Friction Block - IDS (ME-9807)
- 1x Angle Indicator (ME-9495A)
- 1x Dynamics Track End Stop (2 Pack) (ME-8971)
- 1x Dynamics Track Feet (Pair) (ME-8972)
- 1x Track Rod Clamp (ME-9836)
Dynamics Systems provide an engaging and affordable method for physics educators to teach a variety of complex concepts. We offer a variety of cart and track options that enable educators to personalize their Dynamics System, while staying within their budget. Compare our cutting-edge carts, sleek and expandable tracks, and various price points to determine which system suits your applications.
Perform the following experiments and more with the Standard Smart Cart Metal Track 2.2 m System.
Visit PASCO's Experiment Library to view more activities.
How does the mechanical energy of a cart change as its motion changes due to gravity? Perform an experiment that explores how a cart's kinetic energy, gravitational potential energy, and total mechanical energy change as it rolls...
How is the shape of an object’s position-time, velocity-time, and acceleration-time graph related to its motion? Experimentally determine the relationships between a cart’s position-time, velocity-time, and acceleration-time...
Use a Smart Cart to perform a conceptual exploration of graphs of speed versus velocity.
Use a Smart Cart to graph position versus time. Use the data to compare average speed and velocity to instantaneous velocity.
How is the impulse imparted to an object in a collision related to the change in momentum of the object? Investigate the relationship between the change in momentum of a cart undergoing a collision and the impulse imparted to...
How is the work done on an object by a force related to the change in that object's kinetic energy? Investigate the relationship between the change in kinetic energy of an object experiencing a non-zero net force, and the work...
|Standard Smart Cart Dynamics Systems Manual||English||1.68 MB|
|Adjustable End Stop Manual||English||249.16 KB|
|Angle Indicator Manual||English||243.41 KB|
|Dynamics Track Feet Pair Manual||English||140.65 KB|
|Replacement Plumb Bobs Manual||English||165.81 KB|
|Super Pulley with Clamp Manual||English||191.08 KB|
|Wireless Smart Cart Manual||English||972.15 KB|