Physics Muro

Antonio Di Muro, Ronan Downes, Mar 16, 2020

Table of Contents

  1. Vectors
    1. Vector addition
    2. Cross product
  2. Kinematics
    1. Parametric trajectories
    2. Projectile motion
    3. Non uniform linear motion with constant acceleration
    4. Uniform circular motion
    5. Non uniform circular motion with constant angular acceleration
    6. Harmonic oscillator
  3. Dynamics
    1. Inclined plane
    2. Inelastic collision
    3. Ballistic pendulum
    4. Double inclined plane
    5. Elastic collision
    6. Inclined plane with spring
  4. Statics
    1. Equilibrium of a rigid rod
    2. Center of mass
  5. Gravitation
    1. Planets
    2. Gravitation
  6. Thermodynamics
    1. Thermodynamic cycles
  7. Waves
    1. Standing wave
    2. Beats
    3. Prism refraction
  8. Electromagnetism
    1. Electrical circuits
    2. Divergence and curl of a vector field 2D
    3. Capacitor circuits
    4. Kirchhoff's Law
    5. Electromagnetic wave
    6. Superposition principle of the electric field
    7. Divergence and curl of a vector field 3D
    8. Magnetic fields generated by currents
    9. Motion of an electron in a capacitor
    10. Alternator
    11. Lorentz force
  9. Quantum mechanics
    1. Compton scattering
    2. Feynman - Reflection with many paths
    3. Photoelectric effect
  10. Relativity
    1. Relativistic space-time diagram
    2. Twin paradox
    3. Benchmark Model Universe - Proper distance
    4. Models of the Universe

1.

Vectors

  • 1. Vector addition
  • 2. Cross product

1.1.

Vector addition

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
Start from the vector A.
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1.2.

2.

Kinematics

  • 1. Parametric trajectories
  • 2. Projectile motion
  • 3. Non uniform linear motion with constant acceleration
  • 4. Uniform circular motion
  • 5. Non uniform circular motion with constant angular acceleration
  • 6. Harmonic oscillator

2.1.

Parametric trajectories

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
Set the parametric equations. Move the slider time to move the point. If necessary, change the scale of the velocity and acceleration.[br]Chosen a point of the curve, determine the speed, all acceleration and the radius of the osculating circle.[br]Determine the traits of accelerated motion. Determine the angular momentum and torque respect to O. View the solution.
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2.2.

2.3.

2.4.

2.5.

2.6.

3.

Dynamics

  • 1. Inclined plane
  • 2. Inelastic collision
  • 3. Ballistic pendulum
  • 4. Double inclined plane
  • 5. Elastic collision
  • 6. Inclined plane with spring

3.1.

Inclined plane

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
Antonio Di Muro

3.2.

3.3.

3.4.

3.5.

3.6.

4.

Statics

  • 1. Equilibrium of a rigid rod
  • 2. Center of mass

4.1.

Equilibrium of a rigid rod

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
After setting the forces and angles, determine the arm of the force balancing and the reaction force at the fulcrum.
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4.2.

5.

Gravitation

  • 1. Planets
  • 2. Gravitation

5.1.

Planets

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
* Determines, from the data, the period of revolution, the mass of the attractor center, the minimum orbital velocity and the ratio between the angular momentum and the mass of the planet (L / m).[br]* In “planets” determines the semi-major axis, the period, the minimum and maximum orbital speeds and L / m.[br]* In “areas law” occurs the second law of Kepler.
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5.2.

6.

Thermodynamics

  • 1. Thermodynamic cycles

6.1.

Thermodynamic cycles

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
Enter the number of moles and the type of gas. [br]Mark the desired transformations (default 4). [br]Solve the cycle. [br]Look at the solution.
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7.

Waves

  • 1. Standing wave
  • 2. Beats
  • 3. Prism refraction

7.1.

Standing wave

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
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7.2.

7.3.

8.

Electromagnetism

  • 1. Electrical circuits
  • 2. Divergence and curl of a vector field 2D
  • 3. Capacitor circuits
  • 4. Kirchhoff's Law
  • 5. Electromagnetic wave
  • 6. Superposition principle of the electric field
  • 7. Divergence and curl of a vector field 3D
  • 8. Magnetic fields generated by currents
  • 9. Motion of an electron in a capacitor
  • 10. Alternator
  • 11. Lorentz force

8.1.

Electrical circuits

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
Enter the values of the resistors and determine the equivalent resistance, all currents and voltages.
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8.2.

8.3.

8.4.

8.5.

8.6.

8.7.

8.8.

8.9.

8.10.

8.11.

9.

Quantum mechanics

  • 1. Compton scattering
  • 2. Feynman - Reflection with many paths
  • 3. Photoelectric effect

9.1.

Compton scattering

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
Set the initial energy of the incident photon E_0 and the angle of the photon scattering. Resolve the collision.
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9.2.

9.3.

10.

Relativity

  • 1. Relativistic space-time diagram
  • 2. Twin paradox
  • 3. Benchmark Model Universe - Proper distance
  • 4. Models of the Universe

10.1.

Relativistic space-time diagram

Created by Antonio Di Muro L.S.S. "G. Bruno" Torino - Italy
Arrange the events A e B with components A ( A x ; A t ) and B ( B x ; B t ) compared to O, but with components A ( A' x ; A' t ) and B ( B' x ; B' t ) compared to O'.[br]By moving the slider you can change the speed of O' relative to O.[br]Moving O' moves in time.[br]Verify that two simultaneous events for O are not simultaneous for O'.[br]Check that two events that happen in the same place for O happen in different place for O'.
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10.2.

10.3.

10.4.

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