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Product Category: Lab Equipment, Sub Category: Ph Meter Product Category: Lab Equipment, Sub Category: Centrifuge - Rotors/parts Product Category: Lab Equipment, Sub Category: CentrifugesĤ Place Swinging Bucket Rotor Features:, Maximum Speed: 4,300 Rpm, Maximum Rcf: 3,345 X G, Maximum Capacity: 4 X 150. Product Category: Lab Equipment, Sub Category:įeatures/specificationsaccomodates Vessels From 1.5 Ml Microtubes To 500 Ml Bottlescan Be Spun At Speeds Up To 15,000 Prm, At Up To 21,000 X Geasy. Product Category: Lab Equipment, Sub Category:įisher Scientific Sonic Dismembrator F550 Features And Specifications:electrical: 110v, 50/60hz, 10a, 550wdimensions: 14w X 19d X 36.5hpr. 704 or email for help with your Fisher Scientific requirements.Ĭlick here to have us contact you with a quote or for further assistance.Ģ46 results found for "Fisher Scientific"įisher Scientific Sonic Dismembrator W/horn & Sound Proof Enclosure 500 & 102cdigital Dimembrator Model 500maximum Output: 400 Winput Power: 11. Select from our inventory results below or call us at (212) 772- 6992 ext. Expedited shipping and repair services are available for your urgent requirements. The measurement was repeated for every 30mm drop in oil level, until a height of 30mm was reached.We stock and service Fisher Scientific equipment, replacement parts and related systems - both current and discontinued products. The starting pressure P, height of oil h in the measuring chamber and the air temperature T in the measuring chamber were recorded. At this point the starting condition for the experiment was established. After that, the compressor was turned on for 1 minute then off. The other end was connected to the suction coupling on the compressor. The cranked end was connected to the rear of the coupling on the fluid chamber.
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After that, the blue hose from the measuring chamber coupling (21) was disconnected. The pressure should be seen to return to 0kN/m2 on the pressure gauge. The blue hose from coupling (5) was disconnected afterwards. After that, the knurled brass cap on the rear of the coupling was put back on. The oil was then transferred from the fluid chamber to the measuring chamber until it reached 150mm by carefully opening the oil control valve (14). The knurled brass cap on the rear of the coupling (6) on the fluid chamber was removed to vent the chamber to atmosphere. The compressor was then turned on until the pressure dropped to approximately -50kN/m2. The temperature was monitored and the maximum value was recorded as …show more content… The oil was then transferred to the measuring chamber (17) by closing the oil control valve (14) and opening the compressor discharge valve (10). The throttle valve was then opened quickly. A temperature close to room temperature should be shown. The temperature selector was then switched to T2.
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Once the system was stabilized for 5-10 minutes, the temperature T1 and the gauge pressure were recorded. Once the pressure reached 650 kN/m2, the heater was turned down to 150V and the pressure and temperature were allowed to be stabilized.
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The temperature was recorded for every suitable interval to give a detailed set of experimental data, in this case 50kN/m2. The starting temperature and pressure were recorded at this point.
#Fisher sonic dismembrator model 500 amplitude for 100 ml full
Once the pressure reached the 0kN/m2 mark, the heater was turned to full power. The mid-range setting was maintained until the pressure increased and reached the 0kN/m2 mark. The aim of this lab demonstration is to get familiar with operating pressure systems in order to investigate …show more content… The heater was then turned on to a mid-range setting. For the Boyle’s law experiment, it was found that pressure is directly proportional to volume, despite using non-ideal gas for the experiment. For the Marcet boiler experiment, it was found that the higher the system pressure, the higher the saturated temperature. The results of this experiment support both relationship, as well as successfully providing a value for steam quality. The aim of this lab is to investigate in pressure-temperature relationship, Boyle’s law, as well as steam quality. This lab report focuses on the two experiments on pressure systems conducted, the Marcet boiler and Boyle’s law.