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91 notecards = 23 pages (4 cards per page)

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Results for VSEPR SD

front 1

H2O

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

back 1

2

front 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

back 2

i) 4; ii) 2; iii) 2; iv) AX2E2

front 3

H2O

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

back 3

Tetrahedral; sp3

front 4

H2O

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

back 4

Angular (Bent)

front 5

H2O

Is this molecule polar?

back 5

Yes

front 6

CH4

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

back 6

0

front 7

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

back 7

i) 4; ii) 4; iii) 0; iv) AX4

front 8

CH4

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

back 8

Tetrahedral; sp3

front 9

CH4

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

back 9

Tetrahedral

front 10

CH4

Is this molecule polar?

back 10

No

front 11

H3O+

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

back 11

1

front 12

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

back 12

i) 4; ii) 3; iii) 1; iv) AX3E

front 13

H3O+

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

back 13

Tetrahedral; sp3

front 14

H3O+

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

back 14

Trigonal pyramidal

front 15

H3O+

Is this molecule polar?

back 15

Yes

front 16

NH3

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

back 16

1

front 17

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

back 17

i) 4; ii) 3; iii) 1; iv) AX3E

front 18

NH3

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

back 18

Tetrahedral; sp3

front 19

NH3

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

back 19

Trigonal pyramidal

front 20

NH3

Is this molecule polar?

back 20

Yes

front 21

C2H4

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

back 21

0

front 22

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

back 22

i) 3; ii) 3; iii) 0; iv) AX3

front 23

C2H4

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

back 23

Trigonal; sp2

front 24

C2H4

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

back 24

Trigonal

front 25

C2H4

Is this molecule polar?

back 25

No

front 26

C2H2

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

back 26

0

front 27

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

back 27

i) 2; ii) 2; iii) 0; iv) AX2

front 28

C2H2

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

back 28

Linear; sp

front 29

C2H2

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

back 29

Linear

front 30

C2H2

Is this molecule polar?

back 30

No

front 31

H2O2

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

back 31

4

front 32

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

back 32

i) 4; ii) 2; iii) 2; iv) AX2E2

front 33

H2O2

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

back 33

Tetrahedral; sp3

front 34

H2O2

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

back 34

Angular (Bent)

front 35

H2O2

Is this molecule polar?

back 35

Yes

front 36

SO2

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

back 36

5

front 37

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

back 37

i) 3; ii) 2; iii) 1; iv) AX2E

front 38

SO2

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

back 38

Trigonal; sp2

front 39

SO2

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

back 39

Angular (Bent)

front 40

SO2

Is this molecule polar?

back 40

Yes

front 41

CO2

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

back 41

4

front 42

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

back 42

i) 2; ii) 2; iii) 0; iv) AX2

front 43

CO2

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

back 43

Linear; sp

front 44

CO2

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

back 44

Linear

front 45

CO2

Is this molecule polar?

back 45

No

front 46

NO3 -

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

back 46

8

front 47

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

back 47

i) 3; ii) 3; iii) 0; iv) AX3

front 48

NO3 -

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

back 48

Trigonal; sp2

front 49

NO3 -

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

back 49

Trigonal

front 50

NO3 -

Is this molecule polar?

back 50

No

front 51

NO2 -

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

back 51

6

front 52

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

back 52

i) 3; ii) 2; iii) 1; iv) AX2E

front 53

NO2 -

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

back 53

Trigonal; sp2

front 54

NO2 -

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

back 54

Angular (Bent)

front 55

NO2 -

Is this molecule polar?

back 55

Yes

front 56

NO2 +

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

back 56

4

front 57

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

back 57

i) 2; ii) 2; iii) 0; iv) AX2

front 58

NO2 +

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

back 58

Linear; sp

front 59

NO2 +

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

back 59

Linear

front 60

NO2 +

Is this molecule polar?

back 60

No

front 61

NH2 -

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

back 61

2

front 62

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

back 62

i) 4; ii) 2; iii) 2; iv) AX2E2

front 63

NH2 -

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

back 63

Tetrahedral; sp3

front 64

NH2 -

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

back 64

Angular (Bent)

front 65

NH2 -

Is this molecule polar?

back 65

Yes

front 66

PCl3

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

back 66

10

front 67

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

back 67

i) 4; ii) 3; iii) 1; iv) AX3E

front 68

PCl3

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

back 68

Tetrahedral; sp3

front 69

PCl3

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

back 69

Trigonal pyramidal

front 70

PCl3

Is this molecule polar?

back 70

Yes

front 71

PCl5

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

back 71

15

front 72

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

back 72

i) 5; ii) 5; iii) 0; iv) AX5

front 73

PCl5

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

back 73

Trigonal bipyramidal; sp3d

front 74

PCl5

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

back 74

Trigonal bipyramidal

front 75

PCl5

Is this molecule polar?

back 75

No

front 76

KrF4

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

back 76

14

front 77

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

back 77

i) 6; ii) 4; iii) 2; iv) AX4E2

front 78

KrF4

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

back 78

Octahedral; sp3d2

front 79

KrF4

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

back 79

Square planar

front 80

KrF4

Is this molecule polar?

back 80

No

front 81

SF6

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

back 81

18

front 82

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

back 82

i) 6; ii) 6; iii) 0; iv) AX6

front 83

SF6

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

back 83

Octahedral; sp3d2

front 84

SF6

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

back 84

Octahedral

front 85

SF6

Is this molecule polar?

back 85

No

front 86

SF4

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

back 86

13

front 87

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

back 87

i) 5; ii) 4; iii) 1; iv) AX4E

front 88

SF4

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

back 88

Trigonal bipyramidal; sp3d

front 89

SF4

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

back 89

Seesaw

front 90

SF4

Is this molecule polar?

back 90

Yes

front 91

Your instructor will give you instructions as what to do with this box. It may be used for bonus points, or for taking away points (for example late submissions) or for error analysis if something went wrong during the lab. If no instructions have been provided to you, please leave this box blank.

5% = 45

back 91

no data