One if you fill it 100 times or 100 individual full graduated cylinders.
The smallest fractional unit for a 10mL cylinder is likely 0.1 mL, as most cylinders are calibrated in increments of 0.1 mL.
Using a 10 ML graduated cylinder you can read 2 decimal places. This is also measuring volume.
There are approximately 2 teaspoons in 10ml of essence.
Helium weighs about 1/7 the weight of air. Air weighs about 1.2 g / L. Helium weighs about 0.17 g / L. 10mL of Helium would weigh about 0.0017 grams.
Water
Glass Graduated Cylinders
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.
The largest volume a graduated cylinder can typically measure is around 2,000 milliliters or 2 liters. Some specialized graduated cylinders may have larger capacities, but this is the general range for most laboratory-grade cylinders.
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.
A graduated cylinder is just a tall cylinder with a little spout that tips out, and has markings in 1-10mL spans.
The smallest fractional unit for a 10mL cylinder is likely 0.1 mL, as most cylinders are calibrated in increments of 0.1 mL.
Using a 10 ML graduated cylinder you can read 2 decimal places. This is also measuring volume.
1
The number of shots in a 10ml vial depends on the dosage prescribed by the healthcare provider. To determine the number of shots, you need to divide the total volume (10ml) by the dosage per shot. For example, if the dosage is 1ml per shot, there would be 10 shots in a 10ml vial. However, if the dosage is 0.5ml per shot, there would be 20 shots in a 10ml vial.
A 10ml solution of 10 percent means that there are 10 grams of solute in 100ml of solution. Therefore, in 10ml of this solution, there would be 1 gram of the solute, as 10% of 10ml is 1ml of pure solute, which weighs 1 gram if the solute's density is 1 g/ml.
Depends on the weight of the glass. The water weighs 10 grams if filled to the 10 ml mark - more if overfilled, of course.
Technically, as long as both are 'accurate,' both are acceptable. However, we don't live in an ideal world. In a 10mL graduated cylinder, the height difference between 1mL is visible, where in a 1L (1000mL) graduated cylinder, 1mL of difference isn't quite visible.