H₂O

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

2

H₂O

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 4; ii) 2; iii) 2; iv) AX₂E₂

H₂O

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Tetrahedral; sp³

H₂O

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Angular (Bent)

H₂O

Is this molecule polar?

Yes

CH₄

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

0

CH₄

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 4; ii) 4; iii) 0; iv) AX₄

CH₄

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Tetrahedral; sp³

CH₄

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Tetrahedral

CH₄

Is this molecule polar?

No

H₃O⁺

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

1

H₃O⁺

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 4; ii) 3; iii) 1; iv) AX₃E

H₃O⁺

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Tetrahedral; sp³

H₃O⁺

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Trigonal pyramidal

H₃O⁺

Is this molecule polar?

Yes

NH₃

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

1

NH₃

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 4; ii) 3; iii) 1; iv) AX₃E

NH₃

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Tetrahedral; sp³

NH₃

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Trigonal pyramidal

NH₃

Is this molecule polar?

Yes

C₂H₄

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

0

C₂H₄

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 3; ii) 3; iii) 0; iv) AX₃

C₂H₄

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Trigonal; sp²

C₂H₄

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Trigonal

C₂H₄

Is this molecule polar?

No

C₂H₂

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

0

C₂H₂

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 2; ii) 2; iii) 0; iv) AX₂

C₂H₂

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Linear; sp

C₂H₂

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Linear

C₂H₂

Is this molecule polar?

No

H₂O₂

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

4

H₂O₂

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 4; ii) 2; iii) 2; iv) AX₂E₂

H₂O₂

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Tetrahedral; sp³

H₂O₂

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Angular (Bent)

H₂O₂

Is this molecule polar?

Yes

SO₂

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

5

SO₂

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 3; ii) 2; iii) 1; iv) AX₂E

SO₂

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Trigonal; sp²

SO₂

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Angular (Bent)

SO₂

Is this molecule polar?

Yes

CO₂

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

4

CO₂

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 2; ii) 2; iii) 0; iv) AX₂

CO₂

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Linear; sp

CO₂

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Linear

CO₂

Is this molecule polar?

No

NO₃ ^-

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

8

NO₃ ^-

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 3; ii) 3; iii) 0; iv) AX₃

NO₃ ^-

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Trigonal; sp²

NO₃ ^-

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Trigonal

NO₃ ^-

Is this molecule polar?

No

NO₂ ^-

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

6

NO₂ ^-

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 3; ii) 2; iii) 1; iv) AX₂E

NO₂ ^-

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Trigonal; sp²

NO₂ ^-

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Angular (Bent)

NO₂ ^-

Is this molecule polar?

Yes

NO₂ ⁺

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

4

NO₂ ⁺

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 2; ii) 2; iii) 0; iv) AX₂

NO₂ ⁺

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Linear; sp

NO₂ ⁺

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Linear

NO₂ ⁺

Is this molecule polar?

No

NH₂ ^-

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

2

NH₂ ^-

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 4; ii) 2; iii) 2; iv) AX₂E₂

NH₂ ^-

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Tetrahedral; sp³

NH₂ ^-

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Angular (Bent)

NH₂ ^-

Is this molecule polar?

Yes

PCl₃

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

10

PCl₃

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 4; ii) 3; iii) 1; iv) AX₃E

PCl₃

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Tetrahedral; sp³

PCl₃

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Trigonal pyramidal

PCl₃

Is this molecule polar?

Yes

PCl₅

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

15

PCl₅

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 5; ii) 5; iii) 0; iv) AX₅

PCl₅

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Trigonal bipyramidal; sp³d

PCl₅

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Trigonal bipyramidal

PCl₅

Is this molecule polar?

No

KrF₄

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

14

KrF₄

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 6; ii) 4; iii) 2; iv) AX₄E₂

KrF₄

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Octahedral; sp³d²

KrF₄

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Square planar

KrF₄

Is this molecule polar?

No

SF₆

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

18

SF₆

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 6; ii) 6; iii) 0; iv) AX₆

SF₆

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Octahedral; sp³d²

SF₆

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Octahedral

SF₆

Is this molecule polar?

No

SF₄

How many lone pairs (non-bonding electron pairs) does the compound possess on ALL atoms (central atom(s) and outer atoms)?

13

SF₄

For this compound, identify the following:

i) Number of Electron Groups (Electron Domains)

ii) Number of Atoms Bonded to the Central Atom

iii) Number of Non-Bonding Electron Pairs (Lone Pairs) Attached to the Central Atom

iv) General Formula

i) 5; ii) 4; iii) 1; iv) AX₄E

SF₄

What is the Electron Group Geometry also called "Overall Shape" and Hybrid Orbital designation for the central atom.

Trigonal bipyramidal; sp³d

SF₄

What is the shape the atoms make (excluding lone pairs)? This is also called "Molecular Shape".

Seesaw

SF₄

Is this molecule polar?

Yes

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