Skin conductance is one of the key physiological parameters that helps us in assessing emotional responses. Because it changes extremely quickly and is very sensitive it is crucial that the measurements are taken as discreetly as possible. Most current methods fail in this regard or just aren’t practical enough. Our solution is the affective head mounted display. Inside of it we have mounted two electrodes that make contact with the forehead, across which skin conductance is then measured. Measurements are taken by Arduino Nano RP2040 and are sent over WiFi to Arduino IOT Cloud platform. Where they are then graphically displayed. Our product is capable of taking measurements very discreetly and that gives it a big advantage over the conventional methods. Because of this the user is hardly aware that they are being measured which gives us more accurate results. Location on the forehead is not as good as on the fingers or foot because it has a lesser concentration of eccrine sweat glands, however through testing we have determined that it is adequate. That was determined by comparing the values and responses on the forehead and the fingers. For reference measurements we used Biopac 150MP with EDA100c electrodes. The response on the forehead was smaller but still clearly visible. In the introduction of this thesis we provided a theoretical basis on skin, virtual reality, skin conductance and its uses in measuring psychological and physiological responses. We dive more thoroughly into electrodermal response and explain why it happens. In the second part of the thesis we describe the process of building the Affective head mounted display. First we built the measuring instrument based on the platform Arduino Nano. Arduino takes measurements with the help of a noninverting amplifier. Then we carefully chose the electrodes that gave us the best result. Lastly we checked how effective our product is in measuring electrodermal response. We did this by comparing it to Biopac 150MP with EDA100c electrodes. We determined that our measured responses are smaller, however they are almost as fast as our reference. The main reason for these differences lies in different concentrations of eccrine sweat glands in our locations.