A new study from Cornell University has found that you can measure the amount of dust on your vacuum cleaners.
The Cornell team created a vacuum cleaner measuring instrument called the Dust Detector.
They then tested the device against dust samples collected at an industrial dust remediation facility in Massachusetts.
The results are in the latest issue of the journal Nature.
The dust detector measures particles from up to 20 meters away.
The team measured the dust particles in a vacuum in an area of the facility that was about a kilometer from the machine.
They used a vacuum chamber that was set to blow air into the chamber, where it would collect the dust, and then measured the air pressure inside the chamber.
The pressure in the chamber is very low.
If the chamber was filled with air, the air would condense into tiny droplets of dust.
The device is about the size of a small laptop.
The researchers found that the device can measure a range of particles from particles that are as small as a grain of sand to particles that measure more than 1,000 microns.
They also found that, although the device measures dust in the dust and not on the surfaces of the machine, dust particles that have a higher pressure inside of them can be measured using the device.
They found that dust particles with a pressure of more than one million psi are detectable with the device and that dust samples in the area measured by the device are at high risk of contamination by microbes.
The research also shows that dust on the surface of the vacuum cleaner can be detected by the Dust Detectors’ vacuum chamber and that the dust detector itself is able to detect dust particles even when the dust is at the bottom of the chamber and is not exposed to air.
“These findings are important because we don’t have an alternative to measuring dust on our vacuum cleaners,” said the paper’s lead author, Daniel E. Poynter, a graduate student in the Department of Electrical and Computer Engineering.
“In our work, we have shown that we can make a very simple device that measures dust on vacuum cleaners, and it can be used in a variety of applications.
For example, we can measure dust on a vacuum pump that is not connected to the vacuum line and is connected to an indoor vacuum in a home or office, and we can use it to detect bacteria or other contaminants that may be present in the environment.”
The research team has now made two additional vacuum cleaners and plans to continue working on the device, which they hope will be a useful tool in the cleaning industry.
In addition to measuring the dust on those machines, the researchers plan to make additional vacuum cleaner-specific measuring instruments.
“We are interested in making these devices for people who want to clean their own vacuum cleaners but who do not want to buy a vacuum,” Poy nter said.
“This is a great way to test new products and find out what they are doing and to know that they have a good product and can be trusted.”