No. Thyroxine is also called as tetraiodothyronine. So thyroxine has four iodine atoms and triiodothyronine has three iodine atoms.
Yes, polyunsaturated fats have fewer hydrogen atoms than saturated fats because they contain double bonds in their carbon chains, which leads to a reduction in the number of hydrogen atoms that can bind to the carbon atoms.
Isotopes.
Oh, what a lovely question! It's like a happy little puzzle. Neutral unbounded lithium atoms are usually fewer in number compared to lithium ions that have connected with other atoms. When lithium atoms bond with other atoms, they become ions and create beautiful new compounds, spreading joy and harmony in the world of chemistry.
More the number of shells in an atom, more away will be the electrons from the nucleus. Hence, weaker will be the attraction between nucleus and outermost electrons. So atom with more shells will let go their electrons easier than atoms with fewer shells.
Iodine has a higher atomic number (53) because it has one more proton in its nucleus than tellurium (52). However, iodine's lower atomic mass compared to tellurium is due to differences in their isotopic composition. Isotopes of iodine with lower mass numbers are more abundant, leading to a lower average atomic mass for iodine compared to tellurium.
Yes, polyunsaturated fats have fewer hydrogen atoms than saturated fats because they contain double bonds in their carbon chains, which leads to a reduction in the number of hydrogen atoms that can bind to the carbon atoms.
There are fewer than a googol atoms in the known universe so a googolplex atoms would be outrageously huge.
Isotopes.
10g of helium has fewer atoms. This is because the atomic mass of helium is much higher than that of hydrogen, so the same mass of helium contains fewer atoms than the same mass of hydrogen.
They may either form covalent or ionic bonds with more atoms.
1.11 mol of Pt contains fewer atoms than 6.022x10^23 atoms of Pt because Avogadro's number represents the number of atoms in 1 mol of a substance. In this case, 1.11 mol is less than 1 mol, so it will contain fewer atoms.
Oh, what a lovely question! It's like a happy little puzzle. Neutral unbounded lithium atoms are usually fewer in number compared to lithium ions that have connected with other atoms. When lithium atoms bond with other atoms, they become ions and create beautiful new compounds, spreading joy and harmony in the world of chemistry.
More the number of shells in an atom, more away will be the electrons from the nucleus. Hence, weaker will be the attraction between nucleus and outermost electrons. So atom with more shells will let go their electrons easier than atoms with fewer shells.
Neutrons in the nucleus, so you have isotopes of the same element, For example hydrogen, deuterium and tritium.
No. The atomic number of an element is determined by its number of protons. If two atoms have different numbers of protons, they have different atomic numbers and are different elements.
Iodine has a higher atomic number (53) because it has one more proton in its nucleus than tellurium (52). However, iodine's lower atomic mass compared to tellurium is due to differences in their isotopic composition. Isotopes of iodine with lower mass numbers are more abundant, leading to a lower average atomic mass for iodine compared to tellurium.
No, when the carbon atoms in hydrocarbon molecules are bonded to as many hydrogen atoms as possible, a saturated hydrocarbon is produced. Unsaturated hydrocarbons have carbon-carbon double or triple bonds, resulting in fewer hydrogen atoms bonded to the carbon atoms.