Erlenmeyer flask

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Related to Conical flask: Measuring cylinder, Round bottomed flask

Er·len·mey·er flask

 (ûr′lən-mī′ər, âr′-)
A conical laboratory flask with a narrow neck and flat broad bottom.

[After Richard August Carl Emil Erlenmeyer (1825-1909), German chemist.]

Erlenmeyer flask

(Chemistry) a flask, for use in a laboratory, with a narrow neck, wide base, and conical shape; conical flask
[C19: named after Emil Erlenmeyer (1825–1909), German chemist]

Er′len•mey•er flask`

(ˈɜr lənˌmaɪ ər, ˈɛr-)
a conical flask with a wide base and narrow neck, used in laboratories for swirling liquids.
[1885–90; after E. Erlenmeyer (1825–1909), German chemist]
ThesaurusAntonymsRelated WordsSynonymsLegend:
Noun1.Erlenmeyer flask - a conical flask with a wide base and narrow neckErlenmeyer flask - a conical flask with a wide base and narrow neck
flask - bottle that has a narrow neck
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Vegetative inoculum was used in the present study which was prepared in 250ml conical flask containing 50ml of vegetative medium.
Synthesis of Surfactant Modified Bentonite 2.0g Sodium bentonite (Na-BT) was added in 200 ml of distilled water and vigorously stirred in a conical flask for 60 minutes to achieve homogeneity.
This powder was then transferred to a sterile conical flask (250 mL capacity) and 100 mL of sterile distilled water was poured into the flask and thoroughly mixed with a sterile spatula.
The conical flask (250 ml) contained 100 ml sabouraud broth medium (Oxoid) (pH 6.5) was prepared and autoclaved, and then inoculated with A.
Subsequently, 1 g powder was added to 100 g distilled water in a conical flask. Put the conical flask into the water bath pot and keep the temperature at 60[degrees]C, stirring with a glass rod for 10 min.
An inoculating loop was used to scrape the strains from the solid medium into a conical flask with 100 mL of CASO liquid medium.
Peptone (0.08 g), 0.4 gNaCl, 0.16 g [H.sub.2]P[O.sub.4], 0.08 g D-glucose, and 1.6 g of agar powder were transferred into a conical flask. Distilled water (72 mL) was added and the mixture was microwaved to ensure complete dissolution.
A solution of titanium butoxide (2mL, 5.86 mmol) was prepared in butanol (6 ml) in a conical flask. This solution was sprayed to a mixture of water and butanol (3: 1) by using a nebulizer.
Approximately 2g of oil was weighed in conical flask and added 10 mL chloroform and stirred.
Exactly, 100 grams of the crushed watermelon rind material was carefully weighed using an analytical balance and transferred into a clean 1000 mL conical flask and diluted with 400 mL of distilled water.
4 % Boric acid solution (10 ml) was mixed with 100 ml alcohol mixed indicator in a conical flask. The conical flask was removed as soon as the distillate was around 40-50 ml.
From the solution, 10 ml was transferred to a conical flask and titrated against 0.1 N NaOH solution.