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Periodic Table
Periodic Trends:
Atoms have an electron cloud surrounding the nucleus
(the radius varies from element to element)
As you move left to right across a period, the atomic radii generally DECREASES
As you move down a group, the atomic radii generally INCREASES
Explanation:
when moving left to right, there is an increasing positive charge in the nucleus… pulling the electrons closer to the positive nucleus, therefore the reason why radii decreases | when going down a group, the radii would increase due to the increase of energy levels. this means that there’s a greater distance between outer orbital and the nucleus… hence the increase in atomic radii |
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Ionization Energy in simple terms is basically how much an atom wants their electrons…
High ionization energy: Strong hold on to electrons
(unlikely to become positive ions)
Low ionization energy: Weak hold on to electrons
(likely to become positive ions)
As you move across periods from left to right, ionization energy INCREASES
As you move down groups, ionization energy DECREASES
Explanation:
when moving from left to right, the elements get closer to reaching their noble gas state, meaning they would want to hold on to their electrons more than giving it away | when moving down a group, there’s a bigger number of orbitals, and the valence electrons are further away from the nucleus, making it easier for the atom to let go of those electrons |
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Octet Rule: Atoms tend to gain, lose, or share electrons in order to acquire a full set of 8 valence electrons
Electronegativity is the ability of an element to attract electrons…or basically how bad does it want another electron
As you move from left to right, the electronegativity INCREASES
As you move down a group, the electronegativity DECREASES
Explanation:
electronegativity is how much an element wants electrons, so as you move right, the closer the element is to reaching 8 valence electrons, so they would want to attract another one | as you move down a group, the valence electrons are further away from the nucleus, so it would tend to lose more. Besides, the nucleus wouldn’t have enough power to attract more electrons |
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Types of Elements:
Metals:
mostly all to the left, and it’s 75% of all elements
malleable, ductile, luster, and conducts electricity
more metallic as you go down a group, towards the left
Nonmetals:
mostly gases
dull, poor electrical conductors
mostly to the right of the table
brittle and lack metallic luster in the solid phase
doesn’t conduct heat/electricity in the solid phase
NOBLE GASES ARE MONOATOMIC (don’t bond with other atoms)
Metalloids:
some properties of metals, and others of nonmetals
staircase that separates the metals/non-metals
B, Si, Ge, As, Sb, Te
Using the Period Table:
Elements in the same group have similar chemical and physical properties !
Same number of valence electrons
form the same kind of ions, meaning they’ll combine with other elements the same way
These groups are a family, and each has their own specific name to differentiate it
Elements in each family react differently with other elements
Group 1: Alkali Metals
Hydrogen doesn’t count, as it’s a non-metal ***
1 electron in the outer shell (valence electron)
Soft and silvery metals
VERY reactive, esp. with water
Conducts electricity
Group 2: Alkaline Earth Metals
2 electrons in the outer shell
White and malleable
Reactive, but less than Alkali metals
Conducts electricity
Groups in the middle: Transition Metals
Groups in the middle
Good conductors of heat/electricity
Used for jewelry
Bonds with many elements in varieties of shapes
Group 3: Boron Family
3 electrons in the outer shell
most are metals, but boron is a METALLOID
Group 4: Carbon Family
4 electrons in the outer shell
contains metals, metalloids, and a NON-METAL (carbon)
Group 5: Nitrogen Family
5 electrons in the outer shell
could share electrons to form compounds
contains metals, metalloids and non-metals
Group 6: Oxygen Family
6 electrons in the outer shell
contains metals, metalloids, and non-metals
reactive
Group 7: Halogens
7 electrons in the outer shell
all are non-metals
VERY reactive, and often bond with elements from group 1
always found combined with another element in nature and stays DIATOMIC when by itself
Group 8: Noble Gases
exist as gases
non-metals
8 electrons in the outer shell
helium, with 2 electrons in outer shell is an exception
NOT REACTIVE with other elements, due to already full valence shell
3 types of Elements (characteristics)
Metals:
Chemical properties:
tend to lose electrons easily
have low ionization energies
form positive ions when combining with other atoms
Physical properties:
good conductors of heat and electricity
lustrous- reflect light, shine when they are polished
flexible
malleable
ductile
are solids at room temperature (except for mercury)
Nonmetals:
chemical properties:
tend to gain electrons
produce covalent bonds by sharing electrons with other nonmetals
physical properties:
exist as gases, molecular solids, or network solids at room temperature except BROMINE
solids are brittle (not ductile or malleable)
solids are dull
poor conductors of heat and electricity
Metalloids:
elements at the border in between metals and nonmetals have some properties of both
Periodic Table
Periodic Trends:
Atoms have an electron cloud surrounding the nucleus
(the radius varies from element to element)
As you move left to right across a period, the atomic radii generally DECREASES
As you move down a group, the atomic radii generally INCREASES
Explanation:
when moving left to right, there is an increasing positive charge in the nucleus… pulling the electrons closer to the positive nucleus, therefore the reason why radii decreases | when going down a group, the radii would increase due to the increase of energy levels. this means that there’s a greater distance between outer orbital and the nucleus… hence the increase in atomic radii |
|---|
Ionization Energy in simple terms is basically how much an atom wants their electrons…
High ionization energy: Strong hold on to electrons
(unlikely to become positive ions)
Low ionization energy: Weak hold on to electrons
(likely to become positive ions)
As you move across periods from left to right, ionization energy INCREASES
As you move down groups, ionization energy DECREASES
Explanation:
when moving from left to right, the elements get closer to reaching their noble gas state, meaning they would want to hold on to their electrons more than giving it away | when moving down a group, there’s a bigger number of orbitals, and the valence electrons are further away from the nucleus, making it easier for the atom to let go of those electrons |
|---|
Octet Rule: Atoms tend to gain, lose, or share electrons in order to acquire a full set of 8 valence electrons
Electronegativity is the ability of an element to attract electrons…or basically how bad does it want another electron
As you move from left to right, the electronegativity INCREASES
As you move down a group, the electronegativity DECREASES
Explanation:
electronegativity is how much an element wants electrons, so as you move right, the closer the element is to reaching 8 valence electrons, so they would want to attract another one | as you move down a group, the valence electrons are further away from the nucleus, so it would tend to lose more. Besides, the nucleus wouldn’t have enough power to attract more electrons |
|---|
Types of Elements:
Metals:
mostly all to the left, and it’s 75% of all elements
malleable, ductile, luster, and conducts electricity
more metallic as you go down a group, towards the left
Nonmetals:
mostly gases
dull, poor electrical conductors
mostly to the right of the table
brittle and lack metallic luster in the solid phase
doesn’t conduct heat/electricity in the solid phase
NOBLE GASES ARE MONOATOMIC (don’t bond with other atoms)
Metalloids:
some properties of metals, and others of nonmetals
staircase that separates the metals/non-metals
B, Si, Ge, As, Sb, Te
Using the Period Table:
Elements in the same group have similar chemical and physical properties !
Same number of valence electrons
form the same kind of ions, meaning they’ll combine with other elements the same way
These groups are a family, and each has their own specific name to differentiate it
Elements in each family react differently with other elements
Group 1: Alkali Metals
Hydrogen doesn’t count, as it’s a non-metal ***
1 electron in the outer shell (valence electron)
Soft and silvery metals
VERY reactive, esp. with water
Conducts electricity
Group 2: Alkaline Earth Metals
2 electrons in the outer shell
White and malleable
Reactive, but less than Alkali metals
Conducts electricity
Groups in the middle: Transition Metals
Groups in the middle
Good conductors of heat/electricity
Used for jewelry
Bonds with many elements in varieties of shapes
Group 3: Boron Family
3 electrons in the outer shell
most are metals, but boron is a METALLOID
Group 4: Carbon Family
4 electrons in the outer shell
contains metals, metalloids, and a NON-METAL (carbon)
Group 5: Nitrogen Family
5 electrons in the outer shell
could share electrons to form compounds
contains metals, metalloids and non-metals
Group 6: Oxygen Family
6 electrons in the outer shell
contains metals, metalloids, and non-metals
reactive
Group 7: Halogens
7 electrons in the outer shell
all are non-metals
VERY reactive, and often bond with elements from group 1
always found combined with another element in nature and stays DIATOMIC when by itself
Group 8: Noble Gases
exist as gases
non-metals
8 electrons in the outer shell
helium, with 2 electrons in outer shell is an exception
NOT REACTIVE with other elements, due to already full valence shell
3 types of Elements (characteristics)
Metals:
Chemical properties:
tend to lose electrons easily
have low ionization energies
form positive ions when combining with other atoms
Physical properties:
good conductors of heat and electricity
lustrous- reflect light, shine when they are polished
flexible
malleable
ductile
are solids at room temperature (except for mercury)
Nonmetals:
chemical properties:
tend to gain electrons
produce covalent bonds by sharing electrons with other nonmetals
physical properties:
exist as gases, molecular solids, or network solids at room temperature except BROMINE
solids are brittle (not ductile or malleable)
solids are dull
poor conductors of heat and electricity
Metalloids:
elements at the border in between metals and nonmetals have some properties of both
NoteStudied by 3 peopleNoteStudied by 182 peopleNoteStudied by 4 peopleNoteStudied by 17 peopleNoteStudied by 10 peopleNoteStudied by 65 people