Atomic Volume (cc/mol): 6.6
The element with the highest atomic volume is francium, which is a highly reactive alkali metal. Francium has the largest atomic radius of all the elements, leading to a high atomic volume.
To calculate the atomic volume occupied by Pt, you can use the formula for the volume of a sphere, which is V = 4/3 * π * r^3. Given the atomic radius of Pt as 91.1 Å, you can substitute this value into the formula to find the atomic volume occupied by Pt.
There is no element with that atomic mass, the element that comes the closest is Ununbium with an atomic mass of 277.0.
To calculate the density of an element from the periodic table, you would need to know the element's atomic mass and atomic volume. The formula for density is mass divided by volume. You can find the atomic mass on the periodic table and calculate the volume using the element's atomic radius or other relevant data.
The electrons in the atom.
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Atomic Volume (cc/mol): 45.3
The volume of a nickel is 688.98 mm3 = 0.689 millilitres, approx. 2177 nickels would occupy a volume of 1.5 litres. However, in a bottle full of nickels, there will be a considerable amount of air space. The exact number of nickels can only be determined by repeated experiment (or simulation).
The element with the highest atomic volume is francium, which is a highly reactive alkali metal. Francium has the largest atomic radius of all the elements, leading to a high atomic volume.
To calculate the atomic volume occupied by Pt, you can use the formula for the volume of a sphere, which is V = 4/3 * π * r^3. Given the atomic radius of Pt as 91.1 Å, you can substitute this value into the formula to find the atomic volume occupied by Pt.
To determine the number of nickels in a quart-size jar, we first need to calculate the volume of the jar in cubic inches. A quart is equivalent to 57.75 cubic inches. Next, we need to find the volume of a nickel, which is approximately 0.069 cubic inches. Dividing the volume of the jar by the volume of a nickel gives us around 837 nickels that can fit in a quart-size jar.
Depends on the can in question, since volume determines how many are inside.
an atom.
The atomic volume of uranium is 12,59 cm3/mol.
The atomic volume of an element is the volume occupied by one mole of atoms of that element. It is not a commonly reported property for elements, but generally, atomic volume tends to increase down a group in the periodic table due to the addition of more electron shells.
chemistry,elements and compounds, atoms amd atomic structure.
The answer depends on the shape of the 2 litres. If it is in the form of a long tube which is 2 cm is diametre, then you will not get a single nickel into it! 2902 nickels will occupy a volume of 2 litres.