Difference between the mass of an atom and the mass of its individual particles amu amu Mass Defect Nuclear Forces
Nuclear Binding Energy Energy released when a nucleus is formed from nucleons. High binding energy = stable nucleus. E = mc 2 E:energy (J) m:mass defect (kg) c:speed of light (3.00×10 8 m/s)
Nuclear Binding Energy Unstable nuclides are radioactive and undergo radioactive decay. The seven most widely recognized magic numbers as of 2007 are 2, 8, 20, 28, 50, 82, 126
Types of Radiation Alpha particle ( ) – helium nucleus paper 2+ Beta particle ( -) –electron 1- lead Positron ( +) –positron 1+ Gamma ( ) –high-energy photon 0 concrete ChargeShielding
Penetrating Ability of Radiation
Nuclear Decay Transmutation- One element becomes another. More than 83 protons means that the nuclei is unstable (radioactive)
Ethan Hawke
11 I. Classes of Organic Compounds Hydrocarbons (C & H only)Heteroatomic compounds aliphaticaromatic alkanes alkenes alkynes cyclic compounds alcohols ethers aldehydes ketones carboxylic acids esters amines amides
12 III. IUPAC Nomenclature A. Parent chains: normal alkanes Parent names: CH 4 methane n-C 11 H 24 undecane CH 3 CH 3 ethane n-C 12 H 26 dodecane CH 3 CH 2 CH 3 propane n-C 13 H 28 tridecane CH 3 (CH 2 ) 2 CH 3 butane n-C 14 H 30 tetradecane CH 3 (CH 2 ) 3 CH 3 pentane¦ CH 3 (CH 2 ) 4 CH 3 hexane n-C 20 H 42 icosane n-C 7 H 16 heptane n-C 30 H 62 triacontane n-C 8 H 18 octane n-C 40 H 82 tetracontane n-C 9 H 20 nonane ¦ n-C 10 H 22 decaneetc. systematic name: {side groups}parent chain{suffix} know to here (teens)
13 II. Alkanes B. Isomers: normal and branched alkanes n-butane “straight chain” branched chain isobutane constitutional isomers C 4 H 10 “butane” lighters: 5% n-butane 95% isobutane
14 II. Alkanes B. Isomers: normal and branched alkanes C 5 H 12 n-pentane isopentane neopentane C 6 H 14 5 isomers C 10 H isomers C 20 H ,319 isomers obviously need system of nomenclature