Atomic Structure

Question 1

Acceleration

Answer 1

Second stage of TOF spectrometry. The positively charged ions are accelerated by an electric fields so that the have the same kinetic energy.

Question 2

Atom

Answer 2

The smallest part of an element that can exist. All substances are made up of atoms.

Question 3

Atomic nucleus

Answer 3

Positively charged object composed of protons and neutrons at the centre of every atom with one or more electrons orbiting it

Question 4

Atomic number

Answer 4

The number of protons in the nucleus

Question 5

Electron

Answer 5

Negatively charged subatomic particle which orbit the nucleus at various energy levels. Relative mass of 1/2000

Question 6

Electron configuration

Answer 6

The distribution of electrons of an atom in orbitals.

Question 7

Electron impact ionisation

Answer 7

Method of ionisation in TOF spectrometry. The sample is vaporised and an electron gun fires high energy electrons at it, causing an electron to be knocked off each particle to produce 1+ ions

Question 8

Electrospray ionisation

Answer 8

Method of ionisation in TOF spectrometry. The sample is dissolved and pushed through a fine nozzle at a high pressure. A high voltage is applied to it causing each particle to gain an H+ ion. The sample is then turned into a gas.

Question 9

First ionisation energy

Answer 9

The energy required to remove 1 mole of electrons from 1 moles of gaseous atoms to form 1 mole of gaseous 1+ ions

E.g. O(g) -> O+(g) + e-

Question 10

Ion detection

Answer 10

Fourth stage of OF spectrometry. The negatively charged plate detects charged particles and a mass spectrum is produced.

Question 11

Ion drift

Answer 11

Third stage of TOF spectrometry. The ions enter a region with no electric field , so they drift through it. The lighter the ion. the faster they will drift

Question 12

Ionisation

Answer 12

First stage of TOF spectrometry. The sample can be ionised by electrospray ionisation of electron impact ionisation

Question 13

Isotope

Answer 13

Atoms of the same element with the same number of protons but a different number of neutrons

Question 14

Mass number

Answer 14

The total number of protons and neutrons in the nucleus

Question 15

Mass Spectrometer

Answer 15

A mass spectrometer gives accurate information about relative isotopic mass and also about the relative abundance of isotopes§

Question 16

Mass spectrometry

Answer 16

Mass spectrometry can be used to identify elements and determine relative molecular mass

Question 17

Neutron

Answer 17

Neutral subatomic particle present in the nucleus of the atom. Relative mass of 1

Question 18

Nuclear charge

Answer 18

Total charge of all the protons in the nucleus. It has the same value as the atomic number. Increases as you go across the periodic table.

Question 19

Proton

Answer 19

Positively charged subatomic particle present in the nucleus of the atom. relative mass of 1

Question 20

Second Ionisation energy

Answer 20

The energy required to remove 1 mole of electrons from 1 mole of gaseosous 1+ ions to form 1 moles of gaseous 2+ ions

E.g. O-(g) -> O2+(g) + e-

Question 21

Sub-shells (orbitals)

Answer 21

Electron shells are divided into sub-shells which have slightly different energy levels. The sub-shells have different numbers of orbitals which can each hold up to two electrons.

Types: s, p, d and f

Question 22

Time of Flight (TOF) spectrometer

Answer 22

A method of mass spectrometry where an ions mass-to-charge ratio is determined by a time of flight measurement.

Consists of four stages: ionisation, acceleration, ion drift and detection