Abstract: The method of analyzing absorbance of one or more liquid samples (3) arranged in the wells (2) of a microplate (1) comprises the steps of setting a desired wavelength falling within the wavelength range of 380 nm-750 nm for absorbance measurement (101), illuminating the samples (3) using electromagnetic radiation having a bandwidth of at most 20 nm around the set wavelength (102), measuring radiant flux transmitted through each sample (3) (103), on the basis of measured radiant flux values, determining an absorbance value for each sample (3) (104), and visualizing the absorbance values on a display (12) as a matrix comprising a plurality of cells (23), each cell (23) corresponding to a well (2) of the microplate (1) (105). The set wavelength is used as an input for determining the visual properties of the cells (23).

Abstract: The method of analyzing one or more samples arranged in sample receptacles of a platform that is configured to receive a plurality of separate samples includes the steps of measuring electromagnetic radiation transmitted or emitted by each sample, repeating the measurement a plurality of times at predetermined intervals, on the basis of each measurement, forming a result matrix comprising a plurality of cells, each cell of the result matrix corresponding to a sample receptacle of the plat-form, wherein a measurement value of each sample is used as an input for determining the visual properties of the respective cell in the result matrix, and displaying the results as consecutive matrixes in respect of time.

Abstract: The method of analyzing absorbance of one or more liquid samples (3) arranged in the wells (2) of a microplate (1) comprises the steps of setting a desired wavelength falling within the wavelength range of 380 nm-750 nm for absorbance measurement (101), illuminating the samples (3) using electromagnetic radiation having a bandwidth of at most 20 nm around the set wavelength (102), measuring radiant flux transmitted through each sample (3) (103), on the basis of measured radiant flux values, determining an absorbance value for each sample (3) (104), and visualizing the absorbance values on a display (12) as a matrix comprising a plurality of cells (23), each cell (23) corresponding to a well (2) of the microplate (1) (105). The set wavelength is used as an input for determining the visual properties of the cells (23).

Abstract: The method of analyzing absorbance of one or more liquid samples arranged in the wells of a microplate includes the steps of setting a desired wavelength falling within the wavelength range of 380 nm-750 nm for absorbance measurement, illuminating the samples using electromagnetic radiation having a bandwidth of at most 20 nm around the set wavelength, measuring radiant flux transmitted through each sample, on the basis of measured radiant flux values, determining an absorbance value for each sample, and visualizing the absorbance values on a display as a matrix comprising a plurality of cells, each cell corresponding to a well of the microplate. The set wavelength is used as an input for determining the visual properties of the cells.

Abstract: The method of analyzing absorbance of one or more liquid samples arranged in the wells of a microplate includes the steps of setting a desired wavelength falling within the wavelength range of 380 nm-750 nm for absorbance measurement, illuminating the samples using electromagnetic radiation having a bandwidth of at most 20 nm around the set wavelength, measuring radiant flux transmitted through each sample, on the basis of measured radiant flux values, determining an absorbance value for each sample, and visualizing the absorbance values on a display as a matrix comprising a plurality of cells, each cell corresponding to a well of the microplate. The set wavelength is used as an input for determining the visual properties of the cells.

Abstract: The method of analyzing one or more samples arranged in sample receptacles of a platform that is configured to receive a plurality of separate samples includes the steps of measuring electromagnetic radiation transmitted or emitted by each sample, repeating the measurement a plurality of times at predetermined intervals, on the basis of each measurement, forming a result matrix comprising a plurality of cells, each cell of the result matrix corresponding to a sample receptacle of the plat-form, wherein a measurement value of each sample is used as an input for determining the visual properties of the respective cell in the result matrix, and displaying the results as consecutive matrixes in respect of time.