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Chapter 11 Homework Attempt 2

front 1

Consider the following compound: SbF5

What is the Electron Domain Geometry?

back 1

Trigonal bipyramidal

front 2

Consider the following compound: NBr3 2- (OR N Br3 2 minus)

What is the Electron Domain Geometry?

back 2

Trigonal bipyramidal

front 3

Consider the following compound: SbF2 - (OR Sb F2 1 minus)

What is the Electron Domain Geometry?

back 3

Tetrahedral

front 4

Consider the following compound: S i H3 - (S i H3 1 minus)

What is the Electron Domain Geometry?

back 4

Tetrahedral

front 5

Consider the following compound: S i F3 - (OR S i F3 1 minus)

What is the Molecular Geometry?

back 5

Trigonal pyramidal

front 6

Consider the following compound: A s I5

What is the Molecular Geometry?

back 6

Trigonal bipyramidal

front 7

Consider the following compound: S b F5

What is the Molecular Geometry?

back 7

Trigonal bipyramidal

front 8

Consider the following compound: NI2 - (OR N I2 1 minus)

What is the Molecular Geometry?

back 8

Angular (Bent)

front 9

What is the hybridization of the central atom in AsCl3 2- (OR A s Cl3 2 minus)?

back 9

sp3d

front 10

What is the hybridization of the central atom in Sb F5?

back 10

sp3d

front 11

What is the hybridization of the central atom in N F5?

back 11

sp3d

front 12

What is the hybridization of the central atom in NO2 - (OR N O2 1 minus)?

back 12

sp2

front 13

What is the bond angle of the central atom in A sBr5?

back 13

120 o/ 90 o

front 14

What is the bond angle of the central atom in P Br5?

back 14

120 o/ 90 o

front 15

What is the bond angle of the central atom in AsI3 2- (OR A s I3 2 minus)?

back 15

120 o/ 90 o

front 16

What is the bond angle of the central atom in SBr4?

back 16

120 o/ 90 o

front 17

Consider the compound below:

Screen Reader Note: Br connected to F, in plane pointing to the right. F in plane pointing straight up in the plane. F in plane straight down in the plane. 2 lone pairs, pointing to the left, one going in to the page, one coming out of the page.End of Note.

Which arrow depicted below is the most accurate representation of the net dipole for this compound?

back 17

No dipole

front 18

Consider the compound below:

Screen Reader Note: I bonds to F straight up in plane. 2 F atoms on each side, one pointing in, one pointing out. Lone pair points straight down in the plane. End of note.

Which arrow depicted below is the most accurate representation of the net dipole for this compound?

back 18

front 19

Which of the following molecules do you expect to be polar? You may need to draw the molecular geometries of each of the molecules to make this determination.

Select all correct answers.

back 19

front 20

Draw the Lewis Structure of C2H4.

C2H4 Contains how many total sigma bonds? (type a number (1,2,4, etc.)

______

Draw the Lewis Structure of C2H4.

C2H4 Contains how many total pi bonds? (type a number (1,2,4, etc.)

______

back 20

sigma = ___5___

pi = ___1___

front 21

CH3CH2CCCH3 Contains how many total sigma bonds? (type a number (1,2,4, etc.)

______

CH3CH2CCCH3 Contains how many total pi bonds? (type a number (1,2,4, etc.)

______

back 21

sigma = ___12___

pi = ___2___

front 22

How many electrons are in bonding orbitals in B2?

Be sure to use all the electrons when constructing your MO diagram. This includes the core and valence electrons.

back 22

6

front 23

What is the bond order of N2?

back 23

3

front 24

How many electrons are in anti-bonding orbitals in N2?

Be sure to use all the electrons when constructing your MO diagram. This includes the core and valence electrons.

back 24

4

front 25

How many electrons are in bonding orbitals in F2?

Be sure to use all the electrons when constructing your MO diagram. This includes the core and valence electrons.

back 25

10

front 26

Draw a molecular orbital diagram for N2 -1. Is this molecule paramagnetic or diamagnetic?

  • paramagnetic
  • diamagnetic

back 26

paramagnetic