Yes, indium (In) is larger than aluminum (Al) in terms of atomic size. Indium has a larger atomic radius because it is located further down in the Periodic Table, which means it has more electron shells compared to aluminum. This increased number of shells results in a greater distance between the nucleus and the outermost electrons, making indium physically larger than aluminum.
It is as 'big' as 0.01 mole Al (not the 'rodent' mole, that's much bigger than 0.27 g!)
As an example potassium has a lower first ionization energy than aluminum (Al).
The element with the atomic number 13 is aluminum.
Aluminium (in the US it is known as "Aluminum" but this is just plain wrong)
To determine the theoretical yield of aluminum oxide (Al₂O₃), we start with the balanced chemical reaction: 4 Al + 3 O₂ → 2 Al₂O₃. From the stoichiometry, 4 moles of aluminum react with 3 moles of oxygen to produce 2 moles of aluminum oxide. Given 1.60 moles of aluminum, we can find the limiting reactant. Since 1.60 moles of Al would require 1.20 moles of O₂ (which is less than the available 1.50 moles), aluminum is the limiting reactant. Thus, 1.60 moles of Al can produce 0.80 moles of Al₂O₃ (from 2 moles Al producing 1 mole Al₂O₃), so the theoretical yield of aluminum oxide is 0.80 moles.
The answer is Aluminum,Carbon,Indium,and Thallium.
Al-aluminum Tl-thallium Ga-gallium In-indium Uut-ununtrium
Sodium (Na) has a larger atomic radius than aluminum (Al).
It is as 'big' as 0.01 mole Al (not the 'rodent' mole, that's much bigger than 0.27 g!)
boron (B), aluminum (Al), gallium (Ga), indium (In), thallium (Tl)
The periodic abbreviation for aluminum is Al.
The element that has a lower first ionization energy than aluminum (Al) is magnesium (Mg). Magnesium is one period above aluminum on the periodic table, and as you move down a group or family, the ionization energy tends to decrease.
Aluminum (or aluminium) has Al as its chemical symbol.
As an example potassium has a lower first ionization energy than aluminum (Al).
It is indium(In) which is in 5th period in group IIIA (or group 13).
There are three: Sodium Magnesium Aluminum
"Family" in this context usually means a column of a wide form Periodic Table. With this meaning, the other elements in the boron family are aluminum, gallium, indium, and tellurium.