Measuring the Gramophone: An Experiment with Radiation Detection

We are now measuring the gramophone, and the detector is closed. We will now go to the famous Techa River, we are now taking the measurement again, and we will stop literally for a minute. Moscow in order to assess what a homophobe is today through reinforced concrete slabs. Now we are shown with an error of 18 percent, statistical error of 18 percent, which includes 16 percent, 9 micro-roentgen in hour or 916 percent, 9 micro-roentgen in hour or 916 percent, and 0.09 microsievert per hour. That is, these values are a good norm, but it is clear that the device gives us average values.

We are moving at a speed of slightly less than 90 kilometers per hour, now we are slowing down and approaching the bridge. Let's see what the device shows us here is the river, here is the sign ahead the river. The device beeps when I reach the threshold of 45 microroentgen an hour. I did this on purpose and configured it this way, according to radiation safety standards, currently at a level of 50 micro-roentgen. This is the threshold value between the norm and the dangerous value. Now we see the statistical error has decreased in a short period of time.

The device has collected data and statistics on this value are fixed at a certain value; we see that the dosimeter using the beta 5 detector reacts very well to gamma radiation and works quite well, it's still fast and this makes me happy. Now we continue leaving the bridge and from the bridge, it is clear that the reinforced concrete slabs drink up particles and they have good active energy that can break through the bridge. The car you are caught by the detector, so it would be interesting next to lower the device somehow for example, in the package, activate voice functions and put a camera with the device and look literally above the bridge over the river what values will be with the detector open and closed; in this case, we see 86.85 micro-roentgen on the bridge breaks through the slabs.

The effect of the water on radiation detection can be seen as the gramophone moves along the Techa River. The device measures the levels of radiation, taking into account the effects of the concrete slabs and the river's water. It is an interesting experiment that highlights the importance of understanding how different materials affect radiation detection. By adjusting the settings and configuration of the device, researchers can gain a better understanding of the factors at play in this situation.

The use of the beta 5 detector is noteworthy, as it reacts well to gamma radiation and works efficiently even at high speeds. The device's ability to collect data and statistics over time allows for a more accurate assessment of the levels of radiation present. This information can be used to inform safety protocols and ensure that workers or individuals are not exposed to hazardous levels of radiation.

As the gramophone continues along the river, it passes under bridges where the water is even deeper. The device detects the changes in radiation levels as the water breaks through the concrete slabs. This provides valuable insights into how different environments affect radiation detection and can help researchers develop more effective methods for measuring radiation levels.

"WEBVTTKind: captionsLanguage: enWe are now measuring the gramophone, thedetector is closed,detector is closed,detector is closed,we will now go to the famouswe will now go to the famouswe will now go to the famousTecha River, we are now taking the measurement again,we will stop literally for a minute inwe will stop literally for a minute inwe will stop literally for a minute inMoscow in order to assessMoscow in order to assesswhat a homophobe is today through reinforced concrete slabs,now we are shown with anow we are shown with anow we are shown with astatistical error of 18 percentstatistical error of 18 percentstatistical error of 18 percent16 percent 9 micro-roentgen in hour or 916 percent 9 micro-roentgen in hour or 916 percent 9 micro-roentgen in hour or 9micro north there is 009 microsievert and per hourmicro north there is 009 microsievert and per hourmicro north there is 009 microsievert and per hourthat is, these values ​​​​ are a goodthat is, these values ​​​​are a goodthat is, these values ​​​​are a goodnorm, but it is clear that the device gives usnorm, but it is clear that the device gives usnorm, but it is clear that the device gives usaverage values, we are moving at aaverage values, we are moving at aaverage values, we are moving at aspeed of slightly less than 90 kilometers perspeed of slightly less than 90 kilometers perspeed of slightly less than 90 kilometers perhour, now we are slowing down andhour, now we are slowing down andhour, now we are slowing down andapproaching the bridge,let’s see what the device shows ushere is the river here is the sign ahead the riverhere is the river here is the sign ahead the riverhere is the river here is the sign ahead the riverTechaeven reseteven reseteven resetthedevice beeps when I reach thedevice beeps when I reach thedevice beeps when I reach thethreshold of 45 microroentgen an hour I did thisthreshold of 45 microroentgen an hour I did thisthreshold of 45 microroentgen an hour I did thison purpose and configured it this way,on purpose and configured it this way,on purpose and configured it this way,that is, according to radiationthat is, according to radiationthat is, according to radiationsafety standards, currently 50safety standards, currently 50safety standards, currently 50microroentgenmicroroentgenmicroroentgenis the threshold value betweenis the threshold value betweenis the threshold value betweenthe norm and the dangerous value, sothe norm and the dangerous value, sothe norm and the dangerous value, sonow we see the statisticalnow we see the statisticalnow we see the statisticalerror has decreased in a short period oferror has decreased in a short period oferror has decreased in a short period oftime; the device has collectedtime; the device has collectedtime; the device has collecteddata and statistics on this value aredata and statistics on this value aredata and statistics on this value arefixed at a certain value;fixed at a certain value;fixed at a certain value;we see that the dosimeter using thewe see that the dosimeter using thewe see that the dosimeter using thebeta 5 detectorbeta 5 detectorbeta 5 detectorreacts very well toreacts very well toreacts very well togamma radiation and works quite well it’s stillgamma radiation and works quite well it’s stillgamma radiation and works quite well it’s stillfast and this makes me happy, now wefast and this makes me happy, now wefast and this makes me happy, now wecontinue leaving the bridge and from the bridgecontinue leaving the bridge and from the bridgecontinue leaving the bridge and from the bridgeit is clear that theit is clear that theit is clear that thereinforced concrete slabs drink up particles andreinforced concrete slabs drink up particles andreinforced concrete slabs drink up particles andthey have good active goodthey have good active goodthey have good active goodenergy that can break through theenergy that can break through theenergy that can break through thebridge the car you are caught by the detectorbridge the car you are caught by the detectorbridge the car you are caught by the detectorso it would be interesting nextso it would be interesting nextso it would be interesting nexttime to lower the device somehow Fortime to lower the device somehow Fortime to lower the device somehow Forexample, in the package, activateexample, in the package, activateexample, in the package, activatevoice functions and put avoice functions and put avoice functions and put acamera with the device and lookcamera with the device and lookcamera with the device and lookliterally above the bridge over the river whatliterally above the bridge over the river whatliterally above the bridge over the river whatthe values ​​ will be with the detector open and closed; inthe values ​​will be with the detector open and closed; inthe values ​​will be with the detector open and closed; inthis case, we see 86 85this case, we see 86 85this case, we see 86 85micro-roentgenmicro-roentgenmicro-roentgenon the bridge breaks through the slabs\n"