KERBOODLE SUMMARY QUESTIONS: EL Flashcards
Complete the table
State the number of protons, neutrons, and electrons present in
35 protons
44 neutrons
35 electrons
State the number of protons, neutrons, and electrons present in
35 protons
46 neutrons
35 electrons
State the number of protons, neutrons, and electrons present in
17 protons
18 neutrons
17 electrons
State the number of protons, neutrons, and electrons present in
17 protons
20 neutrons
17 electrons
Using the isotopes and their abundances, work out the relative atomic mass of bromine
Ar of Br = 80.0
Using the isotopes and their abundances, work out the relative atomic mass of bromine
Ar of Ca = 40.1
The relative atomic mass of the element iridium is 192.2. Iridium occurs naturally as a mixture of iridium-191 and iridium-193.
Calculate the percentage of each isotope in naturally occuring iridium if the value for the relative atomic mass is taken to be 192.2
take iridium-193 to be x%
iridium-191 = 100-x%
193x and 191(100-x)
(193x+19100-191x)/100 = 192.2
2x+19100=19220
2x=19220-19100
2x=120
x=60
iridium-193 = 60% iridium-191 = 40%
Write a nuclear equation for a 7Li nucleus that absorbs a colliding proton and then disintegrates into two identical fragments
Write a nuclear equation for the production of carbon-14 by collision of a neutron with an atom of nitrogen-14
The relative atomic mass of antimony is 121.8. Antimony exists as two isotopes - antimony-121 and antimony-123.
Calculate the relative abundances of the two isotopes
antimony-123 = 40% antimony-121 = 60%
Lithium carbonate is used to give the bright red colour to a firework. The visible region of the emission spectrum of lithium contains several coloured lines with a particularly intense line at the red end of the spectrum. The emission spectrum is shown below
Which line, green or red, has a greater frequency?
green
Flame tests can be used to identify some metal cations.
What is the flame colour for Li+?
bright red
Flame tests can be used to identify some metal cations.
What is the flame colour for Na+?
orange
Flame tests can be used to identify some metal cations.
What is the flame colour for K+?
lilac
Flame tests can be used to identify some metal cations.
What is the flame colour for Ca2+?
brick red
Flame tests can be used to identify some metal cations.
What is the flame colour for Ba2+?
apple green
Flame tests can be used to identify some metal cations.
What is the flame colour for Cu2+?
blue-green
Describe the similarites and differences between an emission spectrum of lithium and an absorption spectrum of lithium
Similarities: line spectrum; lines in the same place because have same frequencies
lines get closer together with increasing frequency
Differences: black lines on a bright coloured continuous spectrum background for absorption spectrum
Draw an energy level diagram with two arrows. One to represent an electron energy level change that might give rise to the red line and the other to represent an energy level change that might give rise to the green line.
both arrows pointing downwards
shorter arrow represents red line
longer arrow represents gree line
both arrows must start and finish on lines; does not matter which levels they go between
Calculate the frequency of electromagnetic radiation with a wavelength of 5.5 x 10-7m
5.5 x 1014 s-1
1s2 is an example of a notation for electronic configuration
What does the number 1 refer to?
The electrons are in the first electron shell
1s2 is an example of a notation for electronic configuration
What does the s refer to?
The electrons are in an s type orbital
1s2 is an example of a notation for electronic configuration
What does the superscript 2 refer to?
There are two electrons in this orbital
Write out the electronic configuration for boron (Z=5)
1s22s22p1
Write out the electronic configuration for phosphorus (Z=15)
1s22s22p63s23p3
The electronic configuration of the outermost shell of an atom of an element X is 3s23p4
What is the atomic number and name of the element
Z=16
element is sulfur
Electronic configurations are sometimes abbreviated by labelling the core of filled inner shells as the electronic configuration of the appropriate noble gas.
Name the element from the electronic configuration [Ne] 3s23p5
chlorine
Electronic configurations are sometimes abbreviated by labelling the core of filled inner shells as the electronic configuration of the appropriate noble gas.
Name the element from the electronic configuration [Ar] 4s1
potassium
Electronic configurations are sometimes abbreviated by labelling the core of filled inner shells as the electronic configuration of the appropriate noble gas.
Name the element from the electronic configuration [Ar] 3d24s2
titanium
Electronic configurations are sometimes abbreviated by labelling the core of filled inner shells as the electronic configuration of the appropriate noble gas.
Name the element from the electronic configuration [Kr] 4d105s25p2
tin
The electron shell configuration for sodium can be written as 2.8.1.
Use this notation to write down the electron configuration for lithium
2.1
The electron shell configuration for sodium can be written as 2.8.1.
Use this notation to write down the electron configuration for phosphorus
2.8.5
The electron shell configuration for sodium can be written as 2.8.1.
Use this notation to write down the electron configuration for calcium
2.8.8.2
The electron shell configurations of unknown elements A to E are given below. Which of these elements are in the same group?
A) 2.8.2
B) 2.6
C) 2.8.8.2
D) 2.7
E) 2.2
A, C and E
Complete the table below
Classify the element [Kr] 5s1 as a s-, p-, d-, or f-block element
s-block
Classify the element 1s22s22p63s23p4 as a s-, p-, d-, or f-block element
p-block
Classify the element [Ar] 3d104s24p6 as a s-, p-, d-, or f-block element
p-block
Classify the element [Xe] 6s2 as a s-, p-, d-, or f-block element
s-block
Classify chromium as a s-, p-, d-, or f-block element
d-block
Classify aluminium as a s-, p-, d-, or f-block element
p-block
Classify uranium as a s-, p-, d-, or f-block element
f-block
Classify strontium as a s-, p-, d-, or f-block element
s-block
Draw an electron dot-and-cross diagram for chlorine, Cl2
Draw an electron dot-and-cross diagram for hydrogen chloride, HCl
Draw an electron dot-and-cross diagram for methane, CH4
Draw an electron dot-and-cross diagram for hydrogen sulfide, H2S
Draw an electron dot-and-cross diagram for aluminium bromide, AlBr3
Draw an electron dot-and-cross diagram for silicon chloride, SiCl4
Draw an electron dot-and-cross for ethene