iodine has more protons because it has 53 protons and sulfur only has 16. glad to help
sulfur is used
The electronegativities of sulfur and iodine are 2.58 and 2.66 respectively so we would predict that they would form a covalent bond. Compounds of sulfur and iodine were not known until comparatively recently. Now the following are known S2I2 does contain covalent bonds A salt containing the [S7I]+ cation whichiconsists of a seven membered sulfur ring with iodine attached to one of the S atoms- again theS-I bond is covalent.
No sulfur is simply S (somtimes shown as S8). It looks like the formula there is SFI, which would be a compound of Sulfur, Fluorine, and Iodine.
When looking at the periodic table, we see that Iodine (I) comes after silver (Ag). The clue to this question comes in the atomic number (also known as the proton number), which is the number of protons found in the nucleus of the atom.
No, Sulfur has 16 protons, and Iodine has 53. So that means that Iodine has more protons than Sulfur.
iodine has more protons because it has 53 protons and sulfur only has 16. glad to help
carbon is C,sulfur is S,and iodine is I
Sulfur has 16 Protons and 16 Elections.
sulfur is used
Atomic number is equal to the number of protons of an element. Atomic number of sulphur is 16 while the atomic number of Iodine is 53. So iodine has more protons.
Carbon, phosphorus, sulfur, selenium, and iodine
Iodine has 53 protons.
The electronegativities of sulfur and iodine are 2.58 and 2.66 respectively so we would predict that they would form a covalent bond. Compounds of sulfur and iodine were not known until comparatively recently. Now the following are known S2I2 does contain covalent bonds A salt containing the [S7I]+ cation whichiconsists of a seven membered sulfur ring with iodine attached to one of the S atoms- again theS-I bond is covalent.
Iodine nuclei have one more Proton than Tellurium, but in general the Tellurium atoms have more neutrons, giving a higher average atomic mass. Elements often have isotopes, and their stated atomic masses are averages which look at the abundance of these isotopes. In a given sample of Iodine, 100% of it will be 127I, though the tiniest trace of 129I will exist. In a sample of Tellurium, 65% will be 128Te and 130Te. This makes Tellurium's average atomic mass a little higher than Iodine's.
No sulfur is simply S (somtimes shown as S8). It looks like the formula there is SFI, which would be a compound of Sulfur, Fluorine, and Iodine.
Iodine, bromine, chlorine, sulfur, oxygen, nitrogen