1.2 Atomic Structure (Time needed: 6 class periods)

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Presentation transcript:

1.2 Atomic Structure (Time needed: 6 class periods)

Learning outcomes Matter is composed of particles, which may be atoms, molecules or ions. Atoms. Minute size of atoms. Law of conservation of mass.

DIFFUSION- evidence for the existence of small particles SPREADING OUT OF GASES COLOUR OF INK SREADING OUT WHEN MIXED WITH WATER HYDROGEN CHLORIDE AND AMMONIA SOLUTION

AMMONIUM CHLORIDE

law of conservation of mass/matter The law of conservation of mass/matter, also known as law of mass/matter conservation says that the mass of a closed system will remain constant, regardless of the processes acting inside the system. Matter cannot be created/destroyed, although it may be rearranged. For any chemical process in a closed system, the mass of the reactants must equal the mass of the products.

Learning Outcomes Very brief outline of the historical development of atomic theory (outline principles only; mathematical treatment not required): Dalton: atomic theory; Crookes: vacuum tubes, cathode rays; Stoney: naming of the electron; Thomson: negative charge of the electron; e/m for electrons (experimental details not required); Millikan: magnitude of charge of electrons as shown by oil drop experiment (experimental details not required); Rutherford: discovery of the nucleus as shown by the α−particle scattering experiment; discovery of protons in nuclei of various atoms; Bohr: model of the atom; Chadwick: discovery of the neutron.

HISTORY OF THE ATOM GREEKS – MATTER MADE OF TINY INDIVISIBLE PARTICLES

DALTON ALL MATTER MADE OF SMALL PARTICLES CALLED ATOMS ATOMS ARE INDIVISIBLE ATOMS CANNOT BE CREATED OR DESTROYED

DISCOVERY OF THE ELECTRON CROOKES CONDUCTED EXPERIMENTS WITH A GLASS TUBE

CROOKES TUBE

CROOKES TUBES CATHODE CONNECTED TO NEGATIVE ELECTRODE ANODE CONNECTED TO THE POSITIVE ELECTRODE CNAP

VACUUM TUBES GAS AT LOW PRESSURE ELECTRIC CURRENT PASSED THROUGH RADIATION CAME FROM THE END OF THE TUBE CONNECTED TO THE NEGATIVE(CATHODE) END OF THE BATTERY CATHODE RAYS

TUBES

CROOKES PADDLE TUBE

CATHODE RAYS CAST SHADOWS CAUSE GLASS TO GLOW TURN A PADDLE WHEEL RAYS ARE MADE OF PARTICLES

JJ THOMPSON HOLE IN ANODE TO ALLOW BEAM OF RAYS TO PASS THROUGH. BEAM COULD BE DEFLECTED BY ELECTRIC PLATES. THEREFORE BEAM IS MADE OF NEGATIVE PARTICLES.

JJ THOMPSONS APPARATUS

JJ THOMPSON USED A MAGNETIC FIELD FROM AN ELECTROMAGNET TO DEFLECT THE ELECTRONS CALCULATED THE RATIO OF CHARGE TO MASS FOR ELECTRON

GEORGE STONEY NAMED PARTICLES ELECTRONS

ROBERT MILLIKAN FAMOUS OIL-DROP EXPERIMENT IT MEASURED THE CHARGE ON THE ELECTRON X-RAYS IONISED AIR MOLECULES BY STRIPING ELECTRONS OFF THEIR ATOMS. OIL DROPLETS PICKED UP ELECTRONS BECAME NEGATIVE INCREASED THE + CHARGE UNTIL THE DROPLET HOVERED. TOOK MEASUREMENTS AND CALCULATED THE CHARGE ON THE ELECTRON.

ROBERT MILLIKAN

THOMPSON’S ATOM ATOM A SPHERE OF POSITIVE CHARGES WITH NEGATIVE ELECTONS EMBEDDED

ERNEST RUTHERFORD FIRED THIN ALPHA PARTICLES AT A TIN GOLD FOIL THOMPSONS PLUM PUDDING MODEL PREDICTED THAT THEY WOULD PASS THRU’ WITH LITTLE DEFLECTION

RUTHERFORD’S EXPT

RUTHERFORD’S EXPT

EXPECTED RESULT ALPHA PARTICLES SHOULD PASS THROUGH WITH LITTLE DEFLECTION + +

ACTUAL RESULT MOST PASS THROUGH UNDEFLECTED SOME BOUNCED RIGHT BACK!

EXPLANATION HARD DENSE CORE OF POSITIVE MATTER IN THE CENTER OF EACH ATOM-NUCLEUS ATOMS ARE MOSTLY EMPTY SPACE.

THE PROTON RUTHERFORD CONTINUED TO BOMBARD DIFFERENT ELEMENTS SUCH AS NITROGEN AND OXYGEN SMALL POSITIVE PARTICLES WERE GIVEN OFF-- - PROTONS

THE NEUTRON JAMES CHADWICK BOMBARDED BERYLLIUM WITH ALPHA PARTICLES. SMALL PARTICLES WERE GIVEN OFF WHICH WERE NEUTRAL AND HAD THE SAME MASS AS THE PROTON—THE NEUTRON.

Bohr’s atom Electrons travel in orbits around the nucleus

Learning Outcomes Properties of electrons, protons and neutrons (relative mass, relative charge, location within atom).

Proton Protons are positively charged particles found within atomic nucleus

Atomic number (Z ), mass number (A), isotopes; hydrogen and carbon as examples of isotopes. Relative atomic mass (A r). The 12C scale for relative atomic masses. Learning Outcomes

Atomic number Also called proton number, this is the number of protons the atom has

Atomic number Also called proton number, this is the number of protons the atom has

The Number of Electrons Atoms must have equal numbers of protons and electrons. In our example, an atom of krypton must contain 36 electrons since it contains 36 protons.

Mass number Mass Number = (Number of Protons) + (Number of Neutrons)

Isotope Atoms that have the same number of protons but different numbers of neutrons are called isotopes

Hydrogen isotopes The element hydrogen for example, has three commonly known isotopes: protium, deuterium and tritium

Deuterium an atom of deuterium consists of one proton one neutron and one electron

Tritium An atom of tritium consists of one proton two neutrons and one electrons

Relative Atomic Mass The relative atomic mass of an element the mass of one of the element's atoms -- relative to the mass of an atom of Carbon 12,

Learning Outcomes Calculation of approximate relative atomic masses from abundance of isotopes of given mass number (e.g. Calculation of approximate relative atomic mass of chlorine).

Chlorine Chlorine-35 and Chlorine-37 are both isotopes of chlorine

Relative mass of chlorine Chlorine consists of roughly 75% Chlorine-35 and roughly 25% Chlorine-37. We take an average of the two figures The relative atomic mass of chlorine is usually quoted as 35.5.

Learning outcomes Use of the mass spectrometer in determining relative atomic mass. Fundamental processes that occur in a mass spectrometer: vaporisation of substance, production of positive ions, acceleration, separation, detection (mathematical treatment excluded).

THE MASS SPECTROMETER Atoms can be deflected by magnetic fields - provided the atom is first turned into an ion.

Stage 1: Ionisation The atom is ionised by knocking one or more electrons off to give a positive ion.

Stage 2: Acceleration The ions are accelerated so that they all have the same kinetic energy.

Stage 3: Deflection The ions are then deflected by a magnetic field according to their masses. The lighter they are, the more they are deflected.

Stage 4: Detection The beam of ions passing through the machine is detected electrically.