because the sciencetific method is good and is good ,,,i
chemistry,elements and compounds, atoms amd atomic structure.
The density of elements generally increases from left to right across a period in the periodic table and decreases down a group. This trend is due to the increasing atomic mass and decreasing atomic volume of elements. Higher density elements tend to have higher melting and boiling points, as well as greater hardness and strength.
The atomic weight of steel can vary depending on the specific composition of the steel alloy. However, the atomic weight of iron, which is the primary component of steel, is around 55.85 g/mol. Other elements in the steel alloy, such as carbon and other trace elements, will contribute to the overall atomic weight of the steel.
The general trend in densities for period 2 elements of the periodic table is that densities increase from left to right. This is because elements in period 2 have increasing atomic numbers, leading to an increase in atomic mass and a decrease in atomic volume, resulting in higher densities.
The density of an element is a physical property that describes its mass per unit volume. Different elements have different densities based on their atomic structure and arrangement of atoms. Generally, elements with higher atomic masses tend to have higher densities.
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.
a curve plotted by Lother Meyer between atomic mass and atomic volume of different elements is called Lother Meyer's curve. In this curve similar elements were found to occupy similar positions. Lother Meyer concluded the results obtained from the curve as, "atomic volume of elements are periodic functions of their atomic masses". But later on it was modified as atomic volumes of elements, are periodic function of their atomic numbers.
chemistry,elements and compounds, atoms amd atomic structure.
Atomic Volume (cc/mol): 45.3
The atomic volume of nickel is approximately 6.59 cubic centimeters per mole.
The density of elements generally increases from left to right across a period in the periodic table and decreases down a group. This trend is due to the increasing atomic mass and decreasing atomic volume of elements. Higher density elements tend to have higher melting and boiling points, as well as greater hardness and strength.
No it does not have. Atomic number i for elements.
The atomic weight of steel can vary depending on the specific composition of the steel alloy. However, the atomic weight of iron, which is the primary component of steel, is around 55.85 g/mol. Other elements in the steel alloy, such as carbon and other trace elements, will contribute to the overall atomic weight of the steel.
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.
Yes, elements can be ordered by their atomic number. The atomic number of an element corresponds to the number of protons in an atom's nucleus, and elements are arranged in the periodic table from lowest to highest atomic number.
The elements on the periodic table are arranged in order of increasing atomic number.
The general trend in densities for period 2 elements of the periodic table is that densities increase from left to right. This is because elements in period 2 have increasing atomic numbers, leading to an increase in atomic mass and a decrease in atomic volume, resulting in higher densities.