Introduction to atoms

Question 1

What are the elements with major importance to life?

Answer 1

Carbon, hydrogen, oxygen, nitrogen.

Question 2

Why is carbon important to life?

Answer 2

It is a constituent of carbohydrates, DNA, and fat

Question 3

Why is hydrogen important to life?

Answer 3

Constituent of body fluid, carbohydrates, protein, and fat

Question 4

Why is oxygen important to life?

Answer 4

Used for respiration, body fluid, consituent of carbohydrates, protein, and fat

Question 5

Why is nitrogen important to life?

Answer 5

Constituent f protein, nucleic acid, and chlorophyl.

Question 6

What is chemistry?

Answer 6

The study of the properties and behaviour of matter

Question 7

What is matter?

Answer 7

Matter is the physical material of the universe; it is anything that has mass and occupies space.

Question 8

What is a property?

Answer 8

A property is any characteristic that allows us to recognsise and distinguish one type of matter from another. EG: properties could be physical (liquid) or chemical (flammability)

Question 9

What are atoms?

Answer 9

Atoms occupy space and matter in the universe. Trillions of atoms make something up.

Question 10

What causes the huge variety of matter in our world?

Answer 10

the variety of matter in our world is due to combinations of substances called elements.

Question 11

What are atoms made up of?

Answer 11

Subatomic particles.

Question 12

What charge do electrons (e-) have?

Answer 12

negative charge.

Question 13

How do electrons move around the nucleus?

Answer 13

Electrons move around the nucleus in the outer regions forming the electronic cloud which is negatively charged.

Question 14

What charge does a proton have?

Answer 14

a positive charge

Question 15

What charge do neutrons have?

Answer 15

Uncharged (neutral)

Question 16

What is the nucleus of an atom?

Answer 16

The nucleus is very small and dense and makes up 99.9% of an atoms mass. It is positively charged.

Question 17

Mass (kg) of a proton?

Answer 17

1.67262 x 10 to the -27

Question 18

Mass (kg) of a electron?

Answer 18

0.00091 x 10 to the -27

Question 19

Mass (kg) of a neutron?

Answer 19

1.67493 x 10 to the -27

Question 20

Mass (u) of proton?

Answer 20

1.0073

Question 21

Mass (u) of neutron?

Answer 21

1.0087

Question 22

Mass (u) of electron?

Answer 22

0.0005486

Question 23

What is the charge number of proton?

Answer 23

+1

Question 24

What is the charge number of neutron?

Answer 24

0

Question 25

What is the charge number of electron?

Answer 25

-1

Question 26

What is the overall charge of an atom?

Answer 26

Atoms as a whole are electrically neutral; they have no overall electrical charge.

Question 27

unit of measure for atoms?

Answer 27

atomic mass unit

Question 28

number of protons = ?

Answer 28

Number of protons = number of electrons

Question 29

Where is the atomic number?

Answer 29

The top number

Question 30

How do you work out how many protons and electrons an atom has?

Answer 30

Atomic number (top number) tells us number of protons.
For example – Carbon has 6
We therefore know carbon also has 6 electrons since num of protons = num of electrons

Question 31

Where is atomic mass?

Answer 31

Bottom number.

Question 32

What is the atomic mass?

Answer 32

Atomic mass = number of protons + number of neutrons

Question 33

How to work out number of neutrons in an atom?

Answer 33

On the bottom is atomic mass
Atomic mass = number of protons + number of neutrons
Therefore we can work out the number of neutrons by subtracting the number of protons (atomic number) from the atomic mass.
For example, fluorine has an atomic number of 9 and an atomic mass of 19. So num of neutrons = 19-9=10. So 10 neutrons.

Question 34

The number of protons present in the nucleus is…

Answer 34

…unique to each element.

Question 35

What is an isotope?

Answer 35

Atoms of a single element that have the same number of protons and electrons but a different number of neutrons. This means that isotopes of an element have the same atomic number but a different atomic mass.

Question 36

The number of neutrons in an elements nucleus can…

Answer 36

…vary

Question 37

Isotopes can be stable or…

Answer 37

…radioactive.

Question 38

Why can the number of neutrons vary and does not have to be the same as protons or electrons?

Answer 38

Neutrons have no charge, so their number doesn’t have to be the same as protons or electrons.

Question 39

Most atoms contain…

Answer 39

Most atoms contain more neutrons than either protons or electrons.

Question 40

For some elements, the number of neutrons…

Answer 40

For some elements, the number of neutrons varies a little

Question 41

How many isotopes do elements in nature have?

Answer 41

Most elements have between 2 and 10 isotopes

Question 42

How do the properties of isotopes of an element differ?

Answer 42

Isotopes of an element have the same chemical properties (same number of electrons) but different physical properties (different mass)

Question 43

How many natural isotopes are there?

Answer 43

There are 286 isotopes which occur naturally. However, more than 2000 isotopes have been synthesised and have been used in research. These are radioactive.

Question 44

What are the abundance of isotopes?

Answer 44

The various isotopes of an element have varying abundance, but usually one is predominant.

Question 45

What are isotopes used for in biology?

Answer 45

Carbon-14 dating, nuclear magnetic resonance, radioimmunotherapy

Question 46

How do elements in nature exist?

Answer 46

Most elements in nature exist as mixtures of isotopes varying in abundance.

Question 47

What atomic mass do we use?

Answer 47

a weighted average which takes the existence of isotopes into account and their relative abundance in the environment.

Question 48

How to calculate atomic mass weighted average?

Answer 48

[Refer to powerpoint slides]

(Abundance (%) / 100) X Relative mass (amu)

Question 49

How are electrons distributed in atoms?

Answer 49

• Electrons move around the nucleus at speeds approaching the speed of light
• It is almost impossible to say exactly where an electron is at any specific point in time – that is the basis of the UNCERTAINTY PRINCIPAL
• Atomic number (Z) defines the element, but it is the arrangement of electrons that determines the chemical reactivity of that element.

Question 50

What speeds do electrons move in?

Answer 50

at speeds approaching the speed of light

Question 51

What is the uncertainty principle?

Answer 51

The fact that it is almost impossible to determine where an electron is at any point in time.

Question 52

What determines the chemical reactivity of an element?

Answer 52

The arrangement of electrons

Question 53

What are electrons restrained to?

Answer 53

Electrons cannot freely circulate around the nucleus. They are restrained to specific energy levels / energy shells.

Question 54

What does it mean as energy shells increase?

Answer 54

As energy shells increase (n = 1,2,3….) they are further away from the nucleus and possess higher energy.

Question 55

What is the outermost shell of an atom known as?

Answer 55

The valence shell

Question 56

What does each energy level have?

Answer 56

Each energy level has sub levels

Question 57

What are sub levels of energy shells?

Answer 57

Locations where there is a high probability of finding electrons

Question 58

What are the sub levels known as?

Answer 58

atomic orbitals

• These atomic orbitals have particular shapes and can hold a maximum of TWO electrons, 1 spinning clockwise, 1 spinning anti-clockwise

Question 59

What are orbitals?

Answer 59

Orbitals are the path where electrons circumnavigate the nucleus
Orbitals are not always circular (or spherical) in structure .

Question 60

Can electrons occupy the same space?

Answer 60

Electrons cannot occupy the same space – they have a negative charge so they will repel each other.

Question 61

What is the path of least resistance?

Answer 61

Energy levels and orbitals take the path of least resistance (electrons fill from the lowest energy first). This means that predictions can be made regarding an electrons location.

Question 62

Describe energy level 1 (n=1)

Answer 62

Lowest energy closest to nucleus n = 1
s-type orbital
s orbital is spherical in shape, close to and surrounding the nucleus
Called 1s (energy level 1, s-type orbital)
Maximum of 2 electrons in energy level 1 (1s)

Question 63

Describe energy level 2 (n=2)

Answer 63

Second energy level n = 2, slightly higher energy level than the first
Two types of sublevel (orbital) within n = 2:
* spherical s-type orbital: 2s
* 3 dumbbell shaped p-type orbitals: 2px 2py and 2pz
Each p-type orbital has a specific orientation along the x, y or z axis.
The three p orbitals (px , py and pz ) are considered to have identical energies. Therefore an electron will enter an empty p orbital before pairing with another electron in a half full p orbital.
Has space for 8 electrons (2 electrons in each orbital)

Question 64

Describe energy level 3 (n=3)

Answer 64

• Third energy level n=3, slightly higher energy level than n = 2.
• There are three types of sublevel (orbital) within n = 3 and has space for 18 electrons.
• Spherical s-type orbital: 3s
• 3 dumbbell shaped p-type orbitals: 3px, 3py and 3pz
• 5 dumbbell shaped d-type orbitals: 3dxy, 3dxz, 3dyz, 3dz2 and 3dx2-y2

Question 65

Important rules governing the way electrons fill energy levels and orbitals:

Answer 65

1) Electrons fill orbits of the lowest energy level first
2) Within an energy level, electrons fill the orbitals with the lowest energy first: s orbitals represent a lower energy configuration than p orbitals and so are filled first and d orbits represent a higher energy configuration than p orbitals, so they are filled last.
3) Individual orbitals can hold a maximum of 2 electrons. When two electrons occupy the same orbital they spin in opposite directions otherwise their negative charges would force them apart.

Question 66

Why are some elements unreactive?

Answer 66

Elements are unreactive if all the outer electron orbitals are full. For example, neon is unreactive, its a noble gas with a full outer shell, so it is reluctant to lose or gain electrons with other atoms and does not take part in bonding.

Question 67

When and why do atoms react together?

Answer 67

Atoms react together to fill their outer energy levels / outer shell, allowing them to reach a more stable and unreactive state.

Question 68

What is the octet rule?

Answer 68

• For most lighter elements, a complete and stable outer (valence) energy level requires 8 electrons.
  For example, 2 electrons in 2s + 2 electrons each in 2px, 2py, and 2pz = 8 electrons.

Question 69

What does reactivity result in?

Answer 69

Reactivity results in the formation of new bonds between atoms.

Question 70

:(

Answer 70

:)