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).
The VISIR system provides an extraordinarily flexible environment in which students can construct and test different circuits.
Digital systems are everywhere. For instance, a computer is a digital system. This experiment shows the principles of digital systems and devices. This remote lab is not about science, it is about engineering (and technology): design, implementation and analysis of digital systems.
This lab allows users to perform some experiments with an OP Amplifier. There are four real instruments connected to a PC over GPIB (scope, function generator, variable power supply and a digital multi-meter).
LXI-VISIR for AC circuits is a remote laboratory that allows students to create various circuits with resistors (1 kohm and 10 kohm), capacitors and diodes. The circuit is powered by function generator and measured with an oscilloscope and multilemeter.
LXI-VISIR for DC circuits is created and deployed by the WebLab-Deusto on the VISIR basis to design all available serial and parallel circuits using four resistors (1 kohm and 10 kohm). The circuit is powered by DC voltage (0-25V).
What do our genes tell us? Why is knowing how to read the information they contain so important? Genes contain the most valued life secrets about everyone and scientists have already begun to decode and interpret them.
Would you like to find out more about neurons and their functions? What is a synapse and what role to neurotransmitters play? Did you know that our mental health depends on them? In this game, you'll be able to make a person jump up by making a target neuron transmit signals.
PT Anywhere offers a network simulation environment via a web interface that can be accessed from any web browser or as a widget inside an interactive eBook.
Congestion controlTCP is used for reliable transport of data in the Internet. We previously study connection management and TCP mechanisms. In the following exercises, we will get interest in a other fundamental behavior of TCP: the congestion control.
Frequency dependent phenomena in RLC circuits are basis for both demonstration of phenomena in electricity and electromagnetism and for circuits with resonance phenomena. Usually, the voltage transfer and phase characteristics (i.e.
The computed tomography (CT) is a technique, by which two-dimensional images of a body without perturbing superposition of the structures of the body can be produced.
Nowadays optimizing the fluid dynamics of cars is a obligatory part of the developement of a car. The aim of this experiment is to deliver the basics for such technical processes.
The electrochemical sources of electric energy are important components for various appliances. Two basic parameters of any DC electromotive voltage source are important – the electromotive voltage and the internal resistance of the source.
This virtual lab leads the users to their first step into the quantum world of large molecules! They can conduct their own research at a modern experimental setup. It consists of two parts: the learning path and the laboratory. The learning path shows the user the relevant physics concepts.
How would you like to implement a health programme to help control malaria? In this game, you'll help to control and reduce the number of people affected by malaria in a village in Africa.
Can you detect moles which could be suspicious and might develop melanoma? Play the game and detect the suspect moles. You'll find out which factors increase the risk of melanoma and how it can be prevented.
The photoelectric effect is playing a major role in the development of quantum physics. Here one can investigate the energy of electrons which are released by irradiating light on metals. These observations are leading to the particle model of light (light as a photon).
How does HIV infect us and how to current drugs on the market help control the infection? In this game you'll have to treat a patient infected with HIV. You'll need to pass all 4 rounds with questions and mini-games in order to control the infection.
Some obese people with large amounts of belly fat are at risk of developing type 2 diabetes, due to insulin resistance. In this game, we invite you to move the insulin towards the cell receptors so that they glucose transporters are activated. Let's see if you can do it!
Would you like to participate in the process involved in developing a drug from its initial design up to when it is brought onto the market? You'll need to find the best candidate and carry out animal and human testing before the drug can be approved and sold.
Environment that allows code verification and upload, and controling sensors and actuators in Arduino.
If scattering objects are irradiated diffraction pattern are produced, which are colorful and asthetic. These patterns appear learners very complex, because of many reasons.
Diffraction of light (i.e. the deviation of the linear propagation) and interference (i.e. the coherent superposition of light waves results in intensity maxima and minima) represent central phenomena of wave optics. Moreover, both phenomena are playing an essential role in techniques (e.g.
The aim of this RCL is to learn how to use an oscilloscope. The architecture of an oscilloscope will be described in the theoretical part, its use can be exercised in the laboratory section.
This web laboratory enables user to conduct experiments on Digilent Nexys2-500 FPGA device. User can upload their own design by the means of compiled .bit file. Users have 12 inputs available for controlling of an FPGA device (eight switches and four pushbuttons).
Each of us is using several electronic apparates in every day life which are mainly controlled by complex electronics.
Fan & Plate is a laboratory model consisted of horizontal tube, fan and plate. Angle of the plate is a function of motor speed. Angle is measured with potentiometer, and it is then passed to the Arduino.
In this remote laboratory, user can take control of a DC motor by sending a python script to the server. DC Motor is ESCAP 28D2R-219p with integrated 144 pulses per rotation incremental AB encoder.Characteristics of this motor are:
This remote laboratory consists of a Lego Mindstorms NXT brick with two Lego DC motors. Main lab interface will show motors on realtime camera stream, whereas in console, user can see current data in next format:
Simulation allows students to design a small hydro power station to satisfy needs in electricity of a small village.
Solar module lab provides voltage (V) / current (I) characteristic of the selected solar module.
With this experimental setup, user can observe effects of the first order systems on the RC circuit.Experimental setup is consisted of:-NI6008 DA/AD converters-Serial first order RC circuits with galvanic insolation
The energy transport lab lets students design an electricity network that supplies electric power to towns. Activities in the lab are selecting locations for the power plants on a map, designing the cables, transmission towers and the transformers. Students can optimize the network on efficienc
This is a visualization of a diesel engine. Students can see all phases of its work and what makes it more powerful compared to a petrol one.
This is a visualization of work of a four-stroke engine. Students can see how different phases work.