it's in between gallium and arsenic so if gallium's atomic mass is 70 and arsenic's atomic mass is 75, 72 is right between them
The atomic mass of ekasilicon is approximately 118.71 grams per mole.
The atomic mass of ekasilicon is 293.21 grams per mole. It contains 14 silicon atoms and 2 germanium atoms in its molecular structure.
Ekasilicon, or element 14, is the hypothetical element predicted to be the next heavier homolog of silicon (atomic number 14). Since silicon has an atomic mass of approximately 28.09 amu, ekasilicon would likely have an atomic mass slightly higher than that, possibly around 30-32 amu, due to the addition of protons and neutrons in its nucleus. This estimate is based on periodic trends and the expected increase in atomic mass with increasing atomic number.
Ekasilion is a hypothetical element that does not exist in the periodic table, and its atomic mass is not defined. The prefix "eka-" indicates it would be one element below a known element, specifically in the case of eka-silicon, which is now known as germanium. Since ekasilion is not a recognized element, it has no established atomic mass.
The atomic mass of a helium atom is approximately 4 atomic mass units (amu). This value reflects the combined mass of its two protons and two neutrons, as helium has two protons in its nucleus and typically two neutrons. The mass of electrons is negligible compared to that of protons and neutrons, so it does not significantly affect the atomic mass. Thus, the expected atomic mass aligns closely with the sum of the nucleons in the helium nucleus.
The atomic mass of ekasilicon is approximately 118.71 grams per mole.
The atomic mass of ekasilicon is 293.21 grams per mole. It contains 14 silicon atoms and 2 germanium atoms in its molecular structure.
Ekasilicon, with the symbol Es, has an atomic mass of 294. It is a synthetic element in the periodic table and is classified as a transactinide element. It is highly unstable and has a very short half-life.
3 asses
Ekasilion is a hypothetical element that does not exist in the periodic table, and its atomic mass is not defined. The prefix "eka-" indicates it would be one element below a known element, specifically in the case of eka-silicon, which is now known as germanium. Since ekasilion is not a recognized element, it has no established atomic mass.
The atomic mass of a helium atom is approximately 4 atomic mass units (amu). This value reflects the combined mass of its two protons and two neutrons, as helium has two protons in its nucleus and typically two neutrons. The mass of electrons is negligible compared to that of protons and neutrons, so it does not significantly affect the atomic mass. Thus, the expected atomic mass aligns closely with the sum of the nucleons in the helium nucleus.
As diamonds are almost pure carbon, the atomic mass would be carbon's atomic mass: 12.0107
why would I know this sit would not give me the answer :[
Cadmium would be expected to have a higher mass than zinc because it has a higher atomic number and is located further down the periodic table.
Ekasilicon, with the chemical formula Si6H14, is a silicon-based compound that has strong covalent bonds due to the sharing of electrons between the silicon atoms and hydrogen atoms. Its bonding power is characterized by the ability of silicon to form stable tetrahedral structures, similar to other silicon-based compounds.
I want to know what the atomic mass of tellurium is......... It has not answered my question and I would like to know the answer....
Cadmium would be expected to have a higher mass than zinc as cadmium has a larger atomic number and therefore more protons and neutrons in its nucleus which contribute to its greater mass.