Is there a 5 ml volumetric flask?
5ml capacity volumetric flask made of high quality, heavy duty 3.3 borosilicate glass. Conforms to ASTM E288 standards. Class A, tolerance ±0.020 ml. Single, blue graduation mark.
Is there a 500ml volumetric flask?
These 500 mL Class A PYREX® volumetric flasks have machine-blown bodies to which are sealed heavy-beaded, heavy-tubing necks, tooled for No. 19 Standard Taper polyethylene stoppers. The linear high density polyethylene stoppers are made with a closed bottom to conform to Standard Taper stopper dimensions.
Is there a 1000 ml volumetric flask?
Product Description. 1000ml capacity volumetric flask made of high quality, heavy duty 3.3 borosilicate glass. Single, white graduation mark. Class B, tolerance ±0.600 ml.
What is the largest volumetric flask?
Volumetric flask sizes are available with 100ml, 250ml, 500ml, or a 1,000ml volume capacity.
What is the price of volumetric flask?
BOROSIL GLASS Volumetric Flask, Chemical Laboratory, Rs 500 | ID: 7925000333.
Is there a 25 mL volumetric flask?
Volumetric Flask, 25ml – Class A Tolerance ±0.04ml – 10/19 Polypropylene Stopper – Blue Graduation – Borosilicate Glass. 25ml capacity volumetric flask made of high quality, heavy duty borosilicate 3.3 glass. Class A tolerance, ±0.04ml. Single, white graduation mark.
What are the sizes of volumetric flasks?
Sizes for volumetric flasks range from 1mL to 20L. Smaller or micro flasks may have a large base for greater stability. A volumetric flask may have a plastic snap or screw cap or a ground glass joint to accommodate a glass stopper. Two classes of volumetric flasks are available.
How large is a volumetric flask?
1mL to 20L
Sizes for volumetric flasks range from 1mL to 20L. Smaller or micro flasks may have a large base for greater stability. A volumetric flask may have a plastic snap or screw cap or a ground glass joint to accommodate a glass stopper. Two classes of volumetric flasks are available.
How do you read a volumetric flask?
All volumetric glassware is calibrated with markings used to determine a specific volume of liquid to varying degrees of accuracy. To read this volume exactly, the bottom of the curved surface of the liquid, the meniscus, should be located at the scribed line for the desired volume.