4 ml
Density = mass/volume = 167g/ (volume displaced) = 167g / (36mL - 20mL) = 167g/16mL = 10.4g/mL. Density is usually recorded in g/cm3 which is the same as g/mL so the density is 10.4g/cc. Also, to be extra correct, the answer should be rounded to 10g/cc because 16mL only has 2 significant figures so that is the number you report in your final answer.
0.0016
200
10 6 L = 6000 ml Hence 6000 ml / 600 mL = Cancel down by '100' 60/6 = Cancel down by '6' 10/1 = 10 bottles.
4 ml
16mL is 320 drops.
Density = mass/volume = 167g/ (volume displaced) = 167g / (36mL - 20mL) = 167g/16mL = 10.4g/mL. Density is usually recorded in g/cm3 which is the same as g/mL so the density is 10.4g/cc. Also, to be extra correct, the answer should be rounded to 10g/cc because 16mL only has 2 significant figures so that is the number you report in your final answer.
NO! .6 ml is 6 tenths of 1 ml. 6 ml is 6 ml or .006 litres. .6 ml is .0006 litres
16 US fluid ounces = 473.18 ml
0.0016
16 fl oz is 473.2cc
6 cu.ml
One teaspoon equals 5ml, so 16ml will equal three teaspoons plus a tiny bit more.
The density of the titanium can be calculated using the formula: Density = mass/volume. Plugging in the values, Density = 72g / 16mL = 4.5 g/mL. Therefore, the density of the titanium is 4.5 g/mL.
The way I would do this is to first determine the amount of alcohol and that would be 0.09 x 16 ml = 1.44 ml then I would ask myself (0.08 * x) = 1.44 Therefore to have an 8% solution we would have a total of 18 ml of solution (by solving the above equation), thus we would have to add 2 ml of water (18 ml - 16 ml).
6 ml