Two identical air track gliders are used to illustrate Newton's third law of motion- "For every action there is an equal and opposite reaction."The two gliders are initially at rest, tied together with a compressed spring between them, as illustrated in Figure 1. When the string tying the two gliders together is burned, the gliders immediately move in opposite directions with equal speeds
Basic notions of force and vectorSimulation which allows the student to observe the forces of an act...
NPS Physics EDUUsing a glider on an air track we can see what constant acceleration in one dimension...
An amusement ride involving rotations around three axes offers a large-scale illustration for the st...
This demonstration illustrates Newton's first law, by showing that if an object experiences no force...
This demonstration acts as an introduction to the idea of the air track, showing that gliders can mo...
This demonstration uses an air track to investigate elastic and inelastic collisions between air tra...
This demonstration illustrates a variety of collisions using an air track. Data can be taken from ...
An air track glider is connected by two springs to fixed points at the end of the air track. When th...
The motion of a modified Atwood-type machine is studied.https://nsuworks.nova.edu/physics_labs/1003/...
Mechanics lawsThis Demonstration shows the movements of two identical point masses (shown in red and...
This demonstration illustrates that the energy stored in a spring is proportional to the square of t...
International audienceMagnus gliders are spinning toys displaying spectacular looped trajectories wh...
This educational wallsheet illustrating Newton's Third Law of Motion is the third of a set of four. ...
The classical Atwood's machine, consisting of two masses hanging on a light string over a light, f...
The construction and operation of a linear air trough, a device for floating small rectangular block...
Basic notions of force and vectorSimulation which allows the student to observe the forces of an act...
NPS Physics EDUUsing a glider on an air track we can see what constant acceleration in one dimension...
An amusement ride involving rotations around three axes offers a large-scale illustration for the st...
This demonstration illustrates Newton's first law, by showing that if an object experiences no force...
This demonstration acts as an introduction to the idea of the air track, showing that gliders can mo...
This demonstration uses an air track to investigate elastic and inelastic collisions between air tra...
This demonstration illustrates a variety of collisions using an air track. Data can be taken from ...
An air track glider is connected by two springs to fixed points at the end of the air track. When th...
The motion of a modified Atwood-type machine is studied.https://nsuworks.nova.edu/physics_labs/1003/...
Mechanics lawsThis Demonstration shows the movements of two identical point masses (shown in red and...
This demonstration illustrates that the energy stored in a spring is proportional to the square of t...
International audienceMagnus gliders are spinning toys displaying spectacular looped trajectories wh...
This educational wallsheet illustrating Newton's Third Law of Motion is the third of a set of four. ...
The classical Atwood's machine, consisting of two masses hanging on a light string over a light, f...
The construction and operation of a linear air trough, a device for floating small rectangular block...
Basic notions of force and vectorSimulation which allows the student to observe the forces of an act...
NPS Physics EDUUsing a glider on an air track we can see what constant acceleration in one dimension...
An amusement ride involving rotations around three axes offers a large-scale illustration for the st...