Mechanics lawsThis Demonstration simulates the time evolution of three masses coupled with four springs. The left end of the first spring and the right end of the last spring are fixedComponente Curricular::Ensino Médio::Físic
The animation allows the student to observe how the parameters force, speed, acceleration and displa...
The ξ. (pronounced “spring dot”) body problem is a unique, two dimensional, three body problem where...
First, a state of motion of three finite bodies, m1, m2, m3 is idealized by an approximation to the ...
Mechanics lawsThis Demonstration simulates the time evolution of three masses coupled with four spri...
Mechanics lawsThis Demonstration shows the transversal oscillations of a four-spring, three-mass sys...
Concepts of classical dynamicsThis is a simple mechanical system with four identical springs and thr...
A mass hanging on a spring executes simple harmonic motion when displaced vertically from its equili...
Mechanics lawsThis Demonstration shows the movements of two identical point masses (shown in red and...
mechanical lawsThe trajectories of a pendulum whose thread is an elastic spring are visualized. In t...
Simulation which allows the student to observe the simple harmonic motion of a spring. Simultaneousl...
<p>To eliminate the need for known forcing information in the elastography analysis, a three mass sy...
Basic concepts of harmonic movementThis is like a mass and spring laboratory. You can hang masses fr...
A block is connected to two fixed walls by two springs. The equation of motion is m[(d²x/dt²)]+(k1+k...
Concepts of classical and quantum mechanicsCarles Simó developed the dynamic motion of orbits of thr...
Mechanics lawsThis Demonstration visualizes the synchronization of coupled phase oscillatorsComponen...
The animation allows the student to observe how the parameters force, speed, acceleration and displa...
The ξ. (pronounced “spring dot”) body problem is a unique, two dimensional, three body problem where...
First, a state of motion of three finite bodies, m1, m2, m3 is idealized by an approximation to the ...
Mechanics lawsThis Demonstration simulates the time evolution of three masses coupled with four spri...
Mechanics lawsThis Demonstration shows the transversal oscillations of a four-spring, three-mass sys...
Concepts of classical dynamicsThis is a simple mechanical system with four identical springs and thr...
A mass hanging on a spring executes simple harmonic motion when displaced vertically from its equili...
Mechanics lawsThis Demonstration shows the movements of two identical point masses (shown in red and...
mechanical lawsThe trajectories of a pendulum whose thread is an elastic spring are visualized. In t...
Simulation which allows the student to observe the simple harmonic motion of a spring. Simultaneousl...
<p>To eliminate the need for known forcing information in the elastography analysis, a three mass sy...
Basic concepts of harmonic movementThis is like a mass and spring laboratory. You can hang masses fr...
A block is connected to two fixed walls by two springs. The equation of motion is m[(d²x/dt²)]+(k1+k...
Concepts of classical and quantum mechanicsCarles Simó developed the dynamic motion of orbits of thr...
Mechanics lawsThis Demonstration visualizes the synchronization of coupled phase oscillatorsComponen...
The animation allows the student to observe how the parameters force, speed, acceleration and displa...
The ξ. (pronounced “spring dot”) body problem is a unique, two dimensional, three body problem where...
First, a state of motion of three finite bodies, m1, m2, m3 is idealized by an approximation to the ...