DEFINING TURBIDITY OF DISPERSE SYSTEMS WITH POLARIZED LASER
UDC 664.014/.019
SHAPOVAL S.,
candidate of technical sciences, associate professor,
KyivNational Universityof Trade and Economics
ROMANENKO R.,
candidate of technical sciences, senior lecture,
KyivNational Universityof Trade and Economics
FOROSTYANA N.,
candidate of pedagogical sciences, associate professor,
KyivNational Universityof Trade and Economics
DEFINING TURBIDITY OF DISPERSE SYSTEMS WITH POLARIZED LASER
The article justified the use of a polarized monochromatic light gas-discharge laser to determine the turbidity of disperse systems. It described the formulas for determining the turbidity of the sample, the extinction coefficient of the sample and the glass cell. The scheme of experimental installation is provided and an algorithm of work and processing of measurement results are shown.
DEFINING TURBIDITY OF DISPERSE SYSTEMS WITH POLARIZED LASER
SHAPOVAL S.,
candidate of technical sciences, associate professor,
KyivNational Universityof Trade and Economics
ROMANENKO R.,
candidate of technical sciences, senior lecture,
KyivNational Universityof Trade and Economics
FOROSTYANA N.,
candidate of pedagogical sciences, associate professor,
KyivNational Universityof Trade and Economics
DEFINING TURBIDITY OF DISPERSE SYSTEMS WITH POLARIZED LASER
The article justified the use of a polarized monochromatic light gas-discharge laser to determine the turbidity of disperse systems. It described the formulas for determining the turbidity of the sample, the extinction coefficient of the sample and the glass cell. The scheme of experimental installation is provided and an algorithm of work and processing of measurement results are shown.
DEFINING TURBIDITY OF DISPERSE SYSTEMS WITH POLARIZED LASER