The SI unit for mass is the kilogram. When massing a fish or any other substance for calculation the use of the kilogram unit will not require changing units as opposed to Imperial measurements.
The student who is determining the atomic mass of sodium is most likely conducting a chemistry experiment. They would be researching the atomic mass of sodium, which is approximately 22.99 grams per mole.
You might discover that solids have mass and they have volume.
Just adapt the formula for density to find the mass of an object. After adapting it, it should be like this: Volume*Density=Mass
The two main factors in determining the average atomic mass of an element are:the isotopic composition of the element (the fraction of each isotope)the atomic mass of each isotope
Obtain the molecular mass by determining the m/z value of the molecular ion peak (rightmost in the spectrum).
Grams for small fish, kilograms for larger fish.
A mass balance.
The student who is determining the atomic mass of sodium is most likely conducting a chemistry experiment. They would be researching the atomic mass of sodium, which is approximately 22.99 grams per mole.
The effect of gravity is measured.
You might discover that solids have mass and they have volume.
Density = Mass/ Volume
The apple would be expected to be the least dense, followed by the balloon, and then the fish tank. Density is a measure of how much mass is contained in a given volume, so objects with more mass packed into a smaller volume are denser. In this case, the fish tank likely has the most mass in comparison to its volume.
Density = Mass / Volume. So, to write it shorthand, you would write D = m / v.
care of fish
To find the mass of one fish finger, divide the total mass of the packet by the number of fish fingers. So, 800 grams divided by 40 fish fingers equals 20 grams. Therefore, the mass of one fish finger is 20 grams.
Knowing the mass of the graduated cylinder allows you to subtract it from the total mass of the cylinder and the liquid, giving you the mass of the liquid alone. This step is important for accurately determining the mass of the liquid without the container's contribution.
Look on a periodic table.