Chemistry Review
Review Concepts Atom: smallest unit of matter that maintains ALL of the properties of an element Proton, Neutron, Electron: (+), (0), (-) Element: substance that cannot chemically be broken down any further Compound: two or more elements combined Matter: has mass and takes up space
The Specifics Protons and Neutrons are located in the atomic nucleus together. Electrons are found in the outer valence shells of the atom. Atomic mass is measured in daltons: –1 proton/neutron = 1 dalton = 1 amu –Equal to g Electrons are not counted as part of the atomic mass b/c they are 1/2000 of 1 amu.
In the HUMAN BODY 96% of the body is made up of 4 elements: –Carbon, Hydrogen, Oxygen, & Nitrogen The remaining 4 percent is composed of several important elements: –P, Ca, K, S, Na, Cl, Mg –Several trace elements concentration less than 0.01 %- Fe, Cu, F, I, Sn
Reading the Periodic Table 25 Mn Atomic number Atomic Weight Tells number of protons in the nucleus Mass in the nucleus
Isotopes All atoms of the same element contain the same number of protons **Some atoms have a greater number of neutrons and therefore have a greater atomic weight– these are isotopes** Most common isotope = carbon –Carbon 12, Carbon 13, and Carbon 14 –All have 6 protons, but different number of neutrons
Orbitals Orbitals are 3D spaces in which electrons are found s, p, d, and f orbitals exist No more than 2 electrons can be in the same orbital 1s and 2s orbital are both circular 2p orbital is dumbell shaped with X, Y, and Z plane
Remember: The elements on the far right of the periodic table are generally “unreactive”. Unpaired electrons are the reason for chemical reactions Covalent bonds and Ionic bonds are the strongest chemical bonds.
Covalent Bonds Occurs when electrons are shared between two or more elements When 1 electron is shared a single covalent bond is formed When 2 electrons are shared between elements a double covalent bond is formed.
Compounds and Molecules Molecules are formed between 2 atoms of the same element O2 or H2 Compounds are formed between two or more elements H2O
Electronegativity Defined as the attraction for a covalent bond Non-polar covalent bonds are formed between elements that have the same electronegativity Polar covalent bonds are formed when one atom in the bond has a higher electronegativity.
Ionic bonds Typically form when an electron is pulled away from an element by another element Cation- positive charged atom Anion- negative charged atom Ionic bonds are very dependent on the environment to form and stay together –Temperature, humidity, exposure to other elements
Weaker Interactions Other bonds exist in chemical interaction H bonds Van der Waals forces All very influential in biological chemistry Influences shape, structure, and formation of specific molecules (proteins)
Hydroxyl Group Hydrogen atom is bonded to an oxygen atom Alcohols Water molecules are attracted to the hydroxyl group because of polarity
Carbonyl Group Carbon atom double bonded to the oxygen atoms with one hydrogen Aldehyde: –Attached to a multiple carbon chain group Ketone: –Attached to any other group
Carboxyl Group Double bond of oxygen to carbon atoms that is then bonded to a hydroxyl group When the –OH group disassociates it creates H + ions This groups makes organic acids
Amino Group Made of a nitrogen atom bonded to two hydrogen atoms and the carbon R group Most common in biological systems as the ionized form = NH3 + Combined with the carboxyl groups makes amino acids
Sulfhydryl Group Made of sulfur atom bonding to a hydrogen atom Resembles the OH group Also involved with production of proteins
Phosphate Group Carbon skeleton with an Oxygen atom at one end is bonded to a Phosphorus atom and 3 more oxygen atoms
Isomers Isomers are molecules that have the same chemical formula but different arrangements of the atoms. Structural isomers differ in terms of how atoms are joined together. Optical isomers are mirror images of each other. Optical isomers can occur whenever a carbon has four different atoms or groups attached to it.
Isomers