Inorganic Chemistry

Question 1

what is the frequency of a wave?

Answer 1

the number of waves which pass a point in one second

Question 2

what is the equation for the speed of a wave?

Answer 2

c= f x (upside down) y

Question 3

what is the speed of light in a vacuum?

Answer 3

3.00 x 10^8ms-1

Question 4

higher energy means…

Answer 4

higher frequency and so shorter wavelengths

Question 5

what are the different types of waves in order of frequency from lowest to highest?

Answer 5

low - radiowaves, microwaves, infared rays, visible light, ultraviolet light, x-rays, gamma rays - high

Question 6

what is the equation for the energy of 1 mole of photons?

Answer 6

E = Lch/wavelength

Question 7

what is a photon?

Answer 7

a small particle that form a stream (electromagnetic radiation).

Question 8

what is Avogadro’s constant?

Answer 8

the number of atoms or molecules in 1 mole of a substance i.e. 6.02x10^23

Question 9

what is Planck’s constant?

Answer 9

the energy in 1 photon of electromagnetic radiation to the frequency of that radiation i.e. 6.63x10^-34 Js

Question 10

what is monochromatic radiation?

Answer 10

radiation composed of only one wavelength

Question 11

what is continuous radiation?

Answer 11

radiation that spans a whole array of different wavelengths

Question 12

what is the region of the visible light spectrum?

Answer 12

400nm- 700nm roughly

Question 13

how is a line spectrum created?

Answer 13

when electrons gain energy and jump to a higher energy level and then fall back down. when the electrons fall back down energy is released as electromagnetic radiation. if the frequency of this electromagnetic radiation is within the visible spectrum then colored lines will be observed.

Question 14

what does each line in the atomic emission spectrum correspond to?

Answer 14

the energy given out when an excited electron moves from a higher energy level to a lower energy level.

Question 15

the energies between energy levels are…?

Answer 15

fixed. therefore the energy levels themselves are fixed and so the electrons have fixed energies.

Question 16

what is the Balmer series?

Answer 16

the part of a complete spectrum that produces visible light.

Question 17

what is the Lyman series?

Answer 17

the part of a complete spectrum that produces ultraviolet light

Question 18

what is the Paschen series?

Answer 18

the part of a complete spectrum that produces infared radiation

Question 19

how do electrons behave in quantum mechanics?

Answer 19

they behave as standing waves of fixed energy within an atom

Question 20

what is an orbital?

Answer 20

a 3 dimensional region in space.

Question 21

how many electrons can an orbital hold?

Answer 21

a maximum of 2

Question 22

what is the principle quantum number?

Answer 22

‘n’ the number which indicates which shell the electron will be in (corresponding to energy levels).

Question 23

what is the second quantum number?

Answer 23

the angular momentum quantum number ‘l’. this governs the shape of the orbital.

Question 24

what is the third quantum number?

Answer 24

the magnetic quantum number m(lower)l relates to the multiplicity and orientation of the orbital. this ranges from n to minus n where n relates to the number of energy levels.

Question 25

what is the fourth quantum number?

Answer 25

the spin quantum number m(lower)s - describes which way an electron is spinning (clockwise or anticlockwise) and is shown as 1/2 or -1/2

Question 26

what is the formula for calculating the number of electrons at each energy level?

Answer 26

2n^2 where n refers to the number of energy levels.

Question 27

what are p-orbitals?

Answer 27

dumbell shaped orbitals that have 3 degenerate orbitals at each appropriate energy level. (px,py,pz) where l = 1

Question 28

what are s-orbitals?

Answer 28

spherical orbitals. there can only be 1 s orbital at each energy level. where l = 0

Question 29

what are d-orbitals?

Answer 29

double dumbell shaped orbitals that have 5 degenerate orbitals (oriented differently) at each (appropriate) energy level. wher l = 2

Question 30

what are degenerate orbitals?

Answer 30

orbitals of equal energy

Question 31

what is the Pauli Exclusion principle?

Answer 31

no 2 electrons can have the same set of four quantum numbers. this is because two electrons in a shell will have opposite spins therefore they cant have the same quantum numbers.

Question 32

what is the Aufbau principle?

Answer 32

orbitals are filled in order of increasing energy

Question 33

what is Hund’s rule?

Answer 33

when degenerate orbitals are available, electrons occupy separate orbitals individually, with parallel spins, until all of the orbitals have one electron before painring up.

Question 34

what is the order of increasing energy in orbitals? (i.e. 1s,2s…)

Answer 34

1s, 2s, 2p, 3s, 3p, 4s, 3d, 4p, 5s, 4d,5p, 6s, 4f, 5d, 6p, 5f, 6d

Question 35

what is the s block?

Answer 35

groups 1 and 2 where every element has an electon configuration that ends in an s orbital

Question 36

what is the p block?

Answer 36

groups 3-0 where every element has an electron configuration that ends in a p orbital

Question 37

what is the d block?

Answer 37

the transition metals where every element has an electron configuration that ends in a d orbital

Question 38

what is the f block?

Answer 38

the lanthanide and actanide series’ where every element has an electron configuration ending in an f orbital

Question 39

what are the 2 methods of expressing electron configurations?

Answer 39

orbital box notation and spectroscopic notation

Question 40

Why do degenerate orbitals have equal energy?

Answer 40

Because they have the same principle quantum number ‘n’ and the same angular momentum

Question 41

Is the energy of a photon associated to the frequency of the radiation

Answer 41

Yes

Question 42

What happens when a wavelength increases ?

Answer 42

Frequency decreases

Question 43

Are 1/2 filled degenerate orbitals stable ?

Answer 43

Yes. If every degenerate orbitals is 1/2 filled then that orbital is more stable than one with an unequal amount of electrons in the degenerate orbitals.

Question 44

What requires more energy - removing an electron from a partially full orbital or removing an electron from a stable / orbital ?

Answer 44

Removing an electron for a stable or filled orbital

Question 45

How many lines are in the visible region of the hydrogen emission spectrum ?

Answer 45

5

Question 46

What is the alpha line in the hydrogen emission spectrum ?

Answer 46

656nm - where there is a transition between n=2 and n=3

Question 47

What is ionic character ?

Answer 47

The difference in electronegativity values where the highest ionic character is found in the molecule with the highest difference in electronegativities.

Question 48

What is covalent character ?

Answer 48

Electronegativity differences where the molecule with the highest covalent character has the lowest difference in electonegativies

Question 49

What is a convergence limit ?

Answer 49

Where the lines on a spectrum converge representing the first ionisation energy (?)