Shipping Details
Economical
Practical
Stable and accurate heating and temperature control system
Excellent optical system
Powerful comprehensive performance
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OptiMelt provides a fast and accurate means of automatically determining the melting points and melting ranges of chemical substances. With microprocessor controlled temperature ramping, a built-in digital camera, and a selling price that is half that of competing models, OptiMelt offers the best value of any commercially available melting point apparatus.
Range 190-1100 nm, basic/quantiative wavelength scan/DNA Protein Test/Kinetic, automatic peak picking spectrum display. Large screen with graphic display. Spectrum and data can be printed out by printer and sent to computer via USB PORT. Set of 4 quartz and 4 glass cuvettes is provided. Software Included (Imported with German Lamps).
Gentian violet slightly stains the nuclei of the leucocytes. The blood specimen is diluted 1:20 in a WBC pipette with the diluting fluid and the cells are counted under low power of the microscope by using a counting chamber. The number of cells in undiluted blood is reported per cumm (µl) of whole blood.
Stand: Microscope stand configuration AFL
Objective: Objective A 4 / 0,10, Objective A 10 / 0,25, Objective SPL 20 / 0,35 (LD), SPL 40 / 0,60 (LD) in correction mount
condenser: Brightfield condenser NA 0,25 for attachment to the illumination unit
Illumination: HBO 100
Lamphouse: HBO 100 with collector, mirror, lamp mount and heat protection filter
HBO LAMP: Mercury high pressure lamp 100 W
Power supply: HBO 100 including mains cable
Filter slider: Filter slider for up to 2 filtersets
FITC Filter: Filter set D for immunofluorescence (FITC) blue excitation
Set of accessories: Set of accessories WS AFL, operating manual, dust cover
A Spectrophotometer is an analytical instrument used to identify materials including organic polymers. Infrared spectrophotometers record the relative amount of energy as a function of the wavelength/frequency of the infrared radiation when it passes through a sample. Therefore, chemical structures of different samples will reflect differences in the IR absorption spectrum allowing for identification of a sample. Unlike a dispersive spectrometer, an FTIR spectrometer or FTIR spectrophotometer is used to simultaneously obtain spectral data of a sample. It does this by using an interferometer to collect the interferogram, also known as the raw data/signal format, which can then be translated into the infrared spectrum of the sample by means of a fourier transform algorithm. As a result there are many advantages including greater signal-to-noise ratio, high resolution, higher throughput, and a short wavelength limit. FTIR spectrometers can be used in a variety of industries including environmental, pharmaceutical, and petrochemical.
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