Examples of 'flask contents' in a sentence
Meaning of "flask contents"
Flask contents refers to the materials or substances that are present inside a flask. In a scientific context, a flask is a container used for holding and storing liquids or chemicals. The phrase 'flask contents' is often used to describe the specific substances or ingredients contained within a flask, which may vary depending on the purpose of the flask
How to use "flask contents" in a sentence
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flask contents
The flask contents were made up to volume with water.
Heating was provided vía a heating mantle to the flask contents.
The flask contents were then placed under vacuum.
The oil bath temperature was increased to produce light boiling of the flask contents.
The flask contents were heated to reflux under a nitrogen atmosphere.
Stirring was initiated and the flask contents were heated to the reflux temperature.
The flask contents exothermed as the sodium hydroxide dissolved.
CFU Determination Aseptically mix thoroughly the flask contents using a sterile spoonula.
The flask contents were continuously stirred throughout the reaction.
After each sampling, stirring of the flask contents was resumed.
Swirl the flask contents until all solids dissolve.
If large balls were produced by the fermentation, the flask contents were homogenized.
The flask contents were stirred until the drug had dissolved.
The flask inside was purged with nitrogen and the flask contents were ice-cooled.
The flask contents were mixed until the SiH intermediate was consumed.
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Acid number monitoring showed a value of 141 and the flask contents were a mobile liquid.
The flask contents were protected from light with an aluminum foil cover.
To measure cellulose production, the flask contents of each sample were transferred to a 100 ml beaker.
The flask contents were then cooled and concentrated under reduced pressure.
Maintain the temperature of the flask contents at 75°C while stirring.
The flask contents were cooled to room temperature and the product recovered.
Thiophenol was added at 90°C and then the flask contents were further heated.
The temperature of the flask contents was controlled by a metal probe linked to an isomantle.
The vacuum is released with nitrogen and the flask contents cooled to 50°C.
The flask contents were mixed using a magnetic stirrer and stirrer bar.
This reaction apparatus was then inerted with nitrogen and the flask contents were heated to 55°C.
The flask contents were then slowly neutralized with an excess of dampened sodium bicarbonate.
Following this, 1700 g of deionized water was added to the flask contents with vigorous stirring.
The flask contents were heated to a temperature identified in Table X below in on oil bath.
After the reaction is complete, the flask contents are cooled to 90°C.
The flask contents were filtered through a 74 micron nylon cloth to remove the enzyme.
After the soak, the pH of the flask contents was adjusted to 5.0 with 1 N NaOH.
The flask contents were then allowed to incubate for an additional 24 hours to determine aftergrowth.
Maintain the temperature of the flask contents at 80°C for 4 hours while stirring.
The flask contents were then stirred at ambient temperature under nitrogen for 48 hours.
Heating to 160°C and the nitrogen purge are initiated on the stimed flask contents.
After stirring the flask contents for one hour, the flask contents were filtered.
After approximately one minute, the temperature of the reaction flask contents reached approximately -22°C.
The flask contents are evacuated to about 20 mbar with stirring and subsequently decompressed with argon.
Step 3 The reaction flask contents were mixed for 5 minutes.
Flask contents were discharged after an additional 15 minutes.
Heating the reaction flask contents at 80°C was continued overnight.
Flask contents are collected and centrifuged at approximately 1200 rpm to remove cells and debris.
At no point was the flask contents allowed to rise above 135°C.
Flask contents were heated to 80 °C with nitrogen purging.
The trap was filled with toluene and the flask contents were heated to about 175°C.
The flask contents are evacuated to about 20 mbar with stirring and subsequently filled with argon.
The trap was filled with toluene and the flask contents slowly heated to about 240°C.
The flask contents were then made up to volume with Solution 3.
Step 10 The reaction flask contents were then further mixed for 1 additional hour.
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