Inspire Wireless Dynamics Car and Track Systems SL1047A
This Dynamics Car is designed to meet the requirements of the GCSE and A-Level Physics curriculum, offering highly precise, real-time data recording at 50 samples per second. Bluetooth connectivity eliminates the need for wired connections, making it a modern alternative to traditional linear air tracks, ramps, trolleys, and light gates.
A secondary timing car, available as an additional option, connects to the primary car via an IR line-of-sight beam, enabling experiments on collisions and momentum. The primary car connects via Bluetooth to PCs or tablets, where software displays data on displacement, velocity, acceleration, force, energy, and momentum. The software includes user-selectable ‘Basic’ and ‘Advanced’ modes, along with experiment templates.
Experiments can be conducted on a high-quality 1.5m stainless steel track, which can also be inclined to serve as a ramp. For circular dynamics studies, a separate curved track is available, enabling users to graph damped simple harmonic motion and calculate the value of ‘g’ as an alternative to traditional g by free fall setups.
The accessory kit includes magnetically attachable bumpers, pulleys, masses, and a crumple zone attachment, allowing for a wide range of experiments, including elastic, inelastic, and coalescing collisions, demonstrations of Newton’s Second Law using a pulley, and studies on the conservation of momentum and energy.
- The ultimate wireless dynamics system.
- Bluetooth-enabled cars record displacement and velocity.
- Curved track option available for studying circular dynamics.
- 1.5-meter stainless steel dynamics track.
- Comprehensive range of accessories for studying collisions and Newton’s Second Law.
- Quick setup and enhanced functionality compared to linear air tracks.
- Free Windows software displays displacement, velocity, acceleration, force, energy, and momentum.
DESIGN FEATURES:
- Ideal for detailed motion experiments on both linear and curved tracks.
- Includes two vehicles (primary and secondary) equipped with built-in rechargeable batteries and advanced electronics.
- The curved track experiment provides an innovative approach to measure acceleration due to gravity.
- Designed specifically for collision studies.
- Seamless data transfer to Laptop, providing live measurements of distance, speed, acceleration, momentum, and kinetic energy over time.
- Captures precise, smooth data for accurate analysis of motion.
- Comes with dedicated software featuring data analysis capabilities and specialized tools.
- Enhanced Collision Analysis: Software supports easy demonstration of energy and momentum conservation in various collision setups, including inclined and curved track experiments.
- Graphical interface allows real-time visualization of kinetic and potential energy, along with their conversion processes.
- Wireless, hassle-free alternative to traditional air tracks and light gate timers, ensuring smooth and uninterrupted data capture.
- Polynomial Equation Fit of Data Points
- Built-in math tools to calculate velocity, acceleration, momentum, potential energy, kinetic energy and to summate these functions so that energy and momentum before collisions can be analysed for example or the energy absorbed by crumple zones.
- Zoom in and Zoom Out
Exp-1 Study of inelastic collision and conservation of momentum
Exp-2 Study of explosions and conservation of momentum
Exp-3 Study of linear motion under low friction, plotting of distance, velocity, momentum, kinetic, potential and total energy and acceleration
Exp-4 Newton’s second law of motion
Exp-5 Linear motion on an inclined plane
Exp-6 Damped harmonic motion in potential well
Exp-7 Dependence of kinetic energy on mass and velocity
Exp-8 Study of elastic collisions, conservation of momentum and energy
Exp-9 Crash tests and the energy changes in crumple zones
Exp-10 Study of damped harmonic oscillation in the horizontal plane and determination of the spring constant
Exp-11 Demonstration of a balloon propelling the car
Exp-12 Demonstration of effect of drag on the vehicle
- Motion In One Dimension : Straight and Curved Tracks.
- Distance, Velocity & Acceleration.
- Newton’s Laws of Motion.
- Linear Momentum, Kinetic and Potential Energy.
- Force and Friction.
- Damped harmonic oscillation.
- Conservation of Momentum.
- Conservation of Energy.
- Conversion of Potential Energy to Kinetic Energy and Vice Versa.
- Elastic and Inelastic Collision.
- Concept of Horizontal and Inclined Motion.
- Concept of Potential Well Track.
- Spring constant.
- Crumple zone absorbs energy in crash.
Code | Description | Qty. |
SA709 | Wireless Timing Car | 1 |
SA710 | Timing Car Secondary | 1 |
SA711 | Dynamic Track 1.5 m | 1 |
SA712 | Dynamic Curved Track | 1 |
C12093 | Power Adapter 9V, 1A with UK Plug | 1 |
R3825 | Cotton Tread White | 1 |
R2248 | Rubber Band (Size 2.5 ” ) | 10 |
R20010 | Screw Driver | 1 |
R11659 | 1″ Double Sided Tape 1 m | 1 |
CD1919 | Barrier Large | 2 |
CB325A | Weight Hanger | 1 |
CB324 | Slotted Weight | 9 |
C15483 | Weight 150 gm | 4 |
C13097 | Valcro Pad | 1 |
C13094 | Hook attachment for Track | 2 |
C13086 | Inclination Feet | 1 |
C13032 | Hook attachment for Car | 2 |
C13031 | Elastic Rope | 1 |
C13028 | Explosion Bumper Assembly | 1 |
C13014 | Elastic Spring | 6 |
C13010 | Pulley with Attachment | 1 |
R11320 | Wooden Hammer | 1 |