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Online labs provide your students with the possibility to conduct scientific experiments in an online environment. Remotely-operated labs (remote labs) offer an opportunity to experiment with real equipment from remote locations. Virtual labs simulate the scientific equipment. Data sets present data from already performed lab experiments. Please use the filters on the right to find appropriate online labs for your class. Labs can be combined with dedicated Apps to create Inquiry Learning Spaces (ILSs).

If you are looking for online labs especially suitable for the curricula of Benin, Kenya or Nigeria, please visit our Collections page.

If you select labs in English, the descriptions on this website will still be displayed in English. However, when you include the lab in an ILS and change the language setting of the ILS to English, the lab will be displayed in English within the ILS.

Waves
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In this lab, you can explore the diffraction of waves through a single slit and double-slit interference pattern.

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Interactive computer simulations and learning environments like virtual laboratories come out as an excellent alternative to conventional physics laboratories.

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Make waves with a dripping faucet, audio speaker, or laser! Adjust frequency and amplitude, and observe the effects. Hear the sound produced by the speaker, and discover what determines the color of light.

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This simulation allows students to study harmonic oscillation in a vertical spring. Students have the ability to change the spring stiffness, mass, amplitude, and initial phase of the spring.

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In this lab, you can explore what light does when it encounters a diffraction grating. Use at least one of the checkboxes to turn on a beam of light.

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This lab simulates the generation of sound waves with a tuning fork.

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This simulation allows students to study longitudinal waves. Students have the ability to change the direction, amplitude, velocity, and frequency of the wave.

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This simulation shows a longitudinal wave (sound wave). You can use the sliders to alter the frequency and amplitude and observe the changes in the wave. In addition, check the boxes below to observe the displacement from equilibrium within the wave. 

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In Newton's rings, a curved watch glass sits on top of a flat piece of glass. A thin film of air is in between the two - the thin film has a thickness that is zero where the two pieces of glass touch, and gradually increases as you move away from that point.

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This is a simulation of a longitudinal wave on a Slinky, shown in middle. At the top is a reference Slinky, showing what the Slinky looks like when there is no wave passing through it.