An atom's Lewis dot structure has three dots. Which of the following elements could it be, and why? Aluminum, because it is in g
2 answers:
Question 1.
The correct statement is " Aluminium, because it is in group 13 and has three valence electrons. The Lewis dot structure for a single atom tells us the number of valence electrons. From the valence electrons we use the periodic table to figure out the identity of the element. Indeed, aluminium has 3 valence electrons and is found in Group 13 on the periodic table.
Question 2.
The correct answer is 5. The outermost shell is called the valence shell and the electrons found in it are called the valence electrons. In this case the outermost shell is n=3, hence all electrons found in this shell are valence electrons. Of course we have the subshells 3s and 3p, but those tells us the region of space where an electron can likely be found but can not explain valence.
Question 3.
Chlorine- 7 valence electrons, Neon- 8 valence electrons, Phosphorus- 5 valence electrons, Sulfur- 6 valence electrons. An element's position in the periodic table helps us figure out it's electron configuration and the group number gives information about the valence electrons.By simply looking at the group number in the periodic table we can know the valence electrons.
Question 4.
The statement is True. As the atomic orbitals get filled the energy levels move further away from the nucleus. The highest orbital that can be occupied by electrons is called the valence shell and the electrons found in it are called the valence electrons. This determine the reactivity of each particular element.
Question 5.
The atom with electron configuration , has an unpaired electron in the 3s orbital which makes it unstable, while the element with 7 valence electrons needs 1 more electron to achieve an octet. Henceforth, the
loses an electron to the element with 7 electrons to form a bond. The element
becomes positively charged while the element with 7 valence electrons becomes negatively charged, hence we have an ionic bond.
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Answer:
Explanation:
1. Concentration of SO₄²⁻
SrSO₄(s) ⇌ Sr²⁺(aq) +SO₄²⁻(aq); Ksp = 3.44 × 10⁻⁷
0.0150 x
2. Concentration of Pb²⁺
PbSO₄(s) ⇌ Pb²⁺(aq) + SO₄²⁻(aq); Ksp = 2.53 × 10⁻⁸
x 2.293 × 10⁻⁵
84.34 grams of grams of iron (III) chloride that can be produced is maximum because Fe is the limiting reagent in this reaction and chlorine gas is excess reagent.
Explanation:
Balanced chemical equation:
2 Fe + 3 Cl2 → 2 FeCl3
DATA GIVEN:
iron = atoms
mass of chlorine gas = 67.2 liters
mass of FeCl3 = ?
number of moles of iron will be calculated as
number of moles =
number of moles =
number of moles = 0.52 moles of iron
moles of chlorine gas
number of moles =
Putting the values in the equation:
n = (atomic mass of chlorine gas = 70.96 grams/mole)
= 947.01 moles
Fe is the limiting reagent so
2 moles of Fe gives 2 moles of FeCl3
0.52 moles of Fe will give
=
0.52 moles of FeCl3 is formed.
to convert it into grams:
mass = n X atomic mass
= 0.52 x 162.2 (atomic mass of FeCl3 is 162.2grams/mole)
<h3> = 84.34 grams </h3>