The y distances shown in the scale and the distance from the slits to the screen (L) are proportional, so they can just be thought of as meters or any other convenient unit. Note that the distances in the simulation are all very small, so that you can see the wavelength separations. Use the Show Interference Pattern button to create the interference pattern that would be seen on the screen. Use the checkboxes to show or hide the wavefronts, maxima, and vertical scale. Use the sliders to adjust the distance between the slits and the wavelength of the light. This is a simulation of diffraction of light by a double slit. You can use the checkboxes to choose between dots representing crests or troughs on the red wave, in order to look for constructive or destructive interference Use the sliders to change the wavelength of the light, the distance between the slits, the distance to the screen, and the height of the point where the waves come together on the screen. This is a simulation of light being diffracted by a double slit, intended for anyone looking to learn about diffraction and interference. If the slit is rotated 90 degrees, the wave is stopped completely. If the slit is rotated, only a component of the wave can pass through. This vertical transverse wave approaches a vertical slit. In this simulation unpolarized waves pass through a vertical slit, leaving only their vertical components. A polarizing filter has a particular transmission axis and only allows light waves aligned with that axis to pass through. This is a simulation intended to help visualize polarization. Use the sliders to change the light intensities. Mix colors of light with adjustable brightness.ĭrag the circles to experiment with mixing colors of light. Select a simulation from one of the above categories or click on a category to see descriptions of the simulations for that category. Simple Harmonic Motion Optical Illusion.Fluid Dynamics and the Bernoulli Equation.Angular Momentum: Person on Rotating Platform.Shooting Bullets Vertically into Blocks.Equilibrium Problem: Bar with Axis Supported by a Cable.Rotational Inertia Lab (choice of three scenarios).Moment of Inertia: Rolling and Sliding Down an Incline.Rotation, Sliding, Rolling, and Friction. Rotation: Rolling Motion Basics + Cycloid.Equipotentials & Electric Field of Two Charges.Charged Particle in a Magnetic Field 3D.Electric Circuit with Four Identical Lightbulbs.Lens Refraction and Spherical Aberration.Double Slit Diffraction and Interference.Air Column Resonance with Longitudinal Waves.Wave Pulse Reflection (Free & Fixed Ends).Longitudinal and Transverse Wave Basics.Wave Pulse Interference and Superposition 2.Wave Pulse Interference and Superposition.Simple Harmonic Motion: Mass on a Spring.Simple Harmonic Motion, Circular Motion, and Transverse Waves.Center of Mass: Person on a Floating Raft.Momentum & Energy: Explosive Collisions.Momentum & Energy: Elastic and Inelastic Collisions.Conservation of Mechanical Energy: Mass on a Vertical Spring.Inclined Plane with Friction, Two Masses, and a Pulley.Static and Kinetic Friction on an Inclined Plane.Friction: Pulling a Box on a Horizontal Surface.Relative Velocity: Boat Crossing a River.Projectile Motion: Tranquilize the Monkey.Kinematics in One Dimension: Two Object System.Kinematics Graphs: Adjust the Acceleration.Position, Velocity, and Acceleration vs.
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