Ag is the chemical symbol of silver.
That should be mass, not weight. The mass of one atom of Ag doesn't depend on the size of the sample. Also, you can't "calculate" the mass of one atom from the information provided. You can look it up - or you can look up the atomic mass of Ag, and multiply it by the atomic mass unit.
The number of protons in a atom is equal to the atomic number, therefor Ag has 47 protons. The number of protons and neutrons in an atom is equal to the atomic mass, therefor (108-47= 61) Ag has 61 neutrons. The number of electrons is equal to the number of protons therefor Ag has 47 electrons.
One formula unit of AgI contains one atom of silver (Ag) and one atom of iodine (I), so there are a total of two atoms in AgI.
1 atom of silver (Ag)= 107.87 amu 1 mole of a substance is 6.022 x 1023 of that substance. 1 MOLE of silver (Ag)= 107.87 grams So, in the three step formula: 1 atom Ag x 1 mole Ag/6.022 x 1023 atoms Ag ≈ 1.660577881 x 10-24 Mole Ag 1.660577881 x10-24 Mole Ag x 107.87 g Ag/ 1 mole Ag ≈ 1.79126536 x 10-22 g. Ag Or, to conserve significant figures, 1.7913 x 10-22 g. Ag (because 1 mole is definite, we don't count its significant figures
In silver sulfide (Ag2S), each silver (Ag) atom has an oxidation state of +1, and each sulfur (S) atom has an oxidation state of -2. This arrangement balances out the charges to form a neutral compound.
ag 2
There are 47 protons in an atom of Ag-107. Ag is the chemical symbol for silver, and the number 107 represents the total number of protons and neutrons in the nucleus of the atom. Since the atomic number of silver is 47, the number of protons in an atom of Ag-107 is also 47.
That should be mass, not weight. The mass of one atom of Ag doesn't depend on the size of the sample. Also, you can't "calculate" the mass of one atom from the information provided. You can look it up - or you can look up the atomic mass of Ag, and multiply it by the atomic mass unit.
Ag is the element Silver. Ag has more electrons than Ag+as for the element to become positively charged through a process called oxidation in which Ag has given up an electron to another element in order to obtain a positive charge. Another way to look at it is the "+" indicates a loss of a negatively charged particle which, in this case, is an electron. Proper Half-Reaction: Ag+ + e- ---> Ag
in the AgCl molecule two atoms present one is Ag (i.e.Ag in +1oxidation state) & another is Cl atom(Cl in -1).
isotope of silver
The number of protons in a atom is equal to the atomic number, therefor Ag has 47 protons. The number of protons and neutrons in an atom is equal to the atomic mass, therefor (108-47= 61) Ag has 61 neutrons. The number of electrons is equal to the number of protons therefor Ag has 47 electrons.
One formula unit of AgI contains one atom of silver (Ag) and one atom of iodine (I), so there are a total of two atoms in AgI.
The symbol for Silver is 'Ag' not 'Na' 'Ag' is taken from its Latin name Argentinum. 'Na' is the symbol for Sodium (latin name: Natrium) Silver is an Element. Atom is the smallest unit of any substance. Two silver atom would be present in Ag2
Silver is a metal element. There are 47 electrons in a single atom.
1 atom of silver (Ag)= 107.87 amu 1 mole of a substance is 6.022 x 1023 of that substance. 1 MOLE of silver (Ag)= 107.87 grams So, in the three step formula: 1 atom Ag x 1 mole Ag/6.022 x 1023 atoms Ag ≈ 1.660577881 x 10-24 Mole Ag 1.660577881 x10-24 Mole Ag x 107.87 g Ag/ 1 mole Ag ≈ 1.79126536 x 10-22 g. Ag Or, to conserve significant figures, 1.7913 x 10-22 g. Ag (because 1 mole is definite, we don't count its significant figures
In silver sulfide (Ag2S), each silver (Ag) atom has an oxidation state of +1, and each sulfur (S) atom has an oxidation state of -2. This arrangement balances out the charges to form a neutral compound.