More info is needed here. I don't know wheather you mean of or outer diameter. If it is OD, there is not enough info to begin to hazard a guess. If you mean of, 10ml cannot equal 100ml and the question doesn't make any sense
Yes. There are 1000ml in a liter.
10ml is 2/3 tablespoons approx
10mL x 1 tsp/4.9289mL= 2.03 tsp
Density = Mass / Volume So, density of an object with a volume of 10ml and a mass of 20 grams is = m / v = 20grams/10ml = 2g/ml
A 10ml graduated cylinder is more accurate than a 100ml graduated cylinder because the smaller volume allows for more precise measurements. The smaller increments on the scale of a 10ml cylinder result in smaller margin of error compared to a 100ml cylinder. This enhances the accuracy of measuring small volumes with greater precision.
10ml x 10=100ml 100ml=3.37 US ounces
More info is needed here. I don't know wheather you mean of or outer diameter. If it is OD, there is not enough info to begin to hazard a guess. If you mean of, 10ml cannot equal 100ml and the question doesn't make any sense
Xml/1gm=100mL/5g=20mL Xgm/10mL=5gm/100mL=.5gm =.5g/20mL
To prepare 100ml of 0.5N HCl solution from a stock solution of 5.0N HCl, you need to dilute the stock solution with water. To calculate the volume of stock solution needed, you can use the formula C1V1 = C2V2, where C1 is the concentration of the stock solution, V1 is the volume of the stock solution needed, C2 is the desired concentration, and V2 is the final volume of the diluted solution. So, V1 = (C2 * V2) / C1 = (0.5 * 100) / 5 = 10ml of the stock solution. Dilute this 10ml of stock solution to 100ml with water.
No, the uncertainty of a graduated cylinder is typically based on its smallest graduated division. Therefore, the 100 ml graduated cylinder would have a larger uncertainty compared to the 10 ml graduated cylinder.
To make 100mL of 5M solution, you could dilute 10mL of the 5M solution with 90mL of solvent (usually water) to achieve the desired volume. This would retain the 5M concentration while reducing the volume to 100mL.
To prepare Altman's acid fuchsin, dissolve 0.5g of basic fuchsin in 100mL of absolute ethanol. Then add 100mL of distilled water and 10mL of 1N hydrochloric acid. The solution should be filtered before use to remove any precipitates.
1
To prepare a 10ml solution containing 1 mole of BSA (Molecular weight 66000 g/mol), you would need 66g of BSA. To prepare a 100ml solution containing 1 mole of BSA, you would need 660g of BSA. Remember to adjust the volume accordingly after dissolving the BSA to ensure accurate concentration.
Solution A: Bismuth nitrate (0.17g) in AcOH (2mL) and H2O (8mL) Solution B: KI (4g) in AcOH (10mL) and H2O (20mL) Mix Solns. A and B and dilute to 100mL with H2O.
Yes. There are 1000ml in a liter.