basic chemistry review intro to biochemistry. chemistry fundamentals all living things are made up...
TRANSCRIPT
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BASIC CHEMISTRY REVIEWIntro to Biochemistry
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Chemistry Fundamentals
• All living things are made up of matter• Matter has mass, occupies space and has many
forms• The atom is composed of a tiny nucleus
containing protons (+), and neutrons (neutral) surrounded by (-) electrons in orbit
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Chemistry Fundamentals
• Mass number = # of protons and neutrons• Atomic Number = # of protons
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Isotopes
• Atoms that have different number of neutrons are called isotopes. Same atomic number, but different mass.
• Carbon has 3 isotopes• 99% of Carbon found in nature is C-12• It was discovered that the nucleus of some
isotopes break apart (decay) over time• These are called radioisotopes
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Radioisotopes• Radioisotopes are radioactive, that is, they decay into
smaller atoms, subatomic particles and energy• All Radioactive isotopes have a half life-the time it takes
for one half of the atoms in a sample to decay.• Half life for different radioisotopes vary while rate of
decay of a particular isotope is constant.
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Radioisotopes
• Benefits-radiometric dating, radioactive tracers• Tracers can follow chemicals through chemical
reactions and their path as they move through cells and the body
• Radio labelled molecules can also be used
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Carbon DatingMeasuring the ratio of C-12 to C-14 in a dead/fossilized organism
allows one to calculate the time that has elapsed since the organisms death. C-12 remains constant while C-14 decays
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Hazards• Radiation from decaying radioisotopes is
harmful to living tissues and cells (mutations)• Dosimeters are used by physicians/scientists
to monitor radiation levels
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Chemical Bonding• Electrons are arranged in energy levels in spaces
around the nuclei called orbitals. The further away from the nucleus, the more potential energy electrons have
• An orbital can only accommodate 2 electrons and has either a spherical (s) shape or a dumbbell shape (p)
• n=1 (1st energy level) 1s orbital• n=2 (2nd energy level) 2s orbital, 2p orbitals (x, y, z)• n=1 (max. 2 electrons)• n=2 (max. 8 electrons)
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Orbital shapes
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Valence electrons
• Located on outermost “s” and “p” orbitals and determine an atom’s chemical behaviour
• Noble gases have full valence orbitals and are thus stable (don’t gain, lose, or share electrons) He, Ne, Ar...
• Other elements attempt to gain, lose, share electrons to become stable. It is these interactions that cause chemical bonds and jump start reactions.
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Lewis dot diagrams
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Periodic Table• Vertical columns=group (family)• Horizontal rows=periods
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Ionic vs. Covalent bonding (video)• Compounds are stable combinations of atoms of
different elements held together by chemical bonds (intramolecular forces of attraction)
• When atoms lose electrons they become positively charged (cations), when they gain electrons they become negatively charged (anions)
• Ionic bond=attraction b/w cations and anions (eg. NaCl)
• Covalent bond=2 atoms share one or more pairs of valence electrons (can be single-H2O, double-O2(g) or triple N2(g) bonds.
• Covalent bonds are usually stronger than ionic bonds
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Electronegativity and Polarity• Electronegativity is a measure of an atom’s ability to
attract a shared electron pair (in a covalent bond)• The larger the electronegativity #, the stronger the
atom attracts the electrons.• Atoms that attract stronger are assigned a negative
charge (-δ)• Atoms that attract weaker are assigned a positive
charge (+δ)• “δ” denotes the term “partial” as electrons are
shared• The difference in electron attraction forms a polar
covalent bond
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Table of electronegativities (p.14)
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Electronegativity difference• If ΔEn is zero that means the electron pair are
sharing equally (non-polar covalent bond)• If ΔEn is greater than zero but less than 1.7, the
bond is polar covalent• If ΔEn is greater than 1.7 the bond is considered
ionic.• Atoms from groups 1, 2 and 16, 17 generally form
ionic compounds
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Molecular Shape
• A molecule’s function is determined by its bonds b/w atoms, shape and polarity.
• When covalent bonds are formed, hybridization occurs (change in the orientation of the valence electrons)
• The Valence Shell Electron Pair Repulsion (VSEPR) Theory can predict molecular shape
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VSEPR
• B/c electrons are negative, valence electron pairs repel each other
• 4 valence pairs (CH4)-tetrahedral• 3 valence pairs (NH3)-pyramidal• 2 valence pairs (H2O)-angular• 1 valence pair (HCl)-linear
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Molecular Polarity
• Covalent bonds can be polar or non-polar…but the polarity of a molecule as a whole depends on bond polarity and molecular shape.
• Symmetrical structure + polar/non-polar bonds = non-polar molecules
• Asymmetrical structure + non-polar bonds = non-polar molecules
• Asymmetrical structure + polar bond(s) = polar molecules
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Water
• Life would not exist without water! • H2O has polar covalent bonds and asymmetrical
shape, making it a highly polar molecule.• Bonds b/w molecules are called intermolecular
and help determine physical states (solid, liquid, gas)
• 3 types; London forces, dipole-dipole forces and Hydrogen bonds (collectively called van der Waals forces)
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Intermolecular bonds
• London dispersion forces are the weakest. Exist b/w all atoms and molecules (e.g. noble gases , non-polar molecules)
• Formed by the temporary unequal distribution of electrons as they move around the nuclei
• This is why He and CH4 are gases at room temperature
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Intermolecular bonds• Dipole-dipole forces hold polar molecules together.
Stronger than London forces• H-bonds are the strongest force of attraction.• Water molecules combine by H-bonds• Water is considered the universal solvent due to its
polarity (+ve and –ve charges attract other polar molecules and ions)
• Disassociation = ionic bonds broken• Salt in water
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Water
• Many substances dissolve in water (soluble-sugar), while others do not (insoluble-chalk)
• Miscible-liquids that dissolve into one another (ethanol is miscible in water)
• Immiscible-liquids that form separate layers (oil)
• The subscript “aq”, aqueous means that it is dissolved in water
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Water
• Some small non-polar molecules can’t form H-bonds with water (O2, CO2) are only slightly soluble.
• That is why hemoglobin (protein carrier) is needed to transport oxygen
• Non-polar molecules = hydrophobic • Polar molecules = hydrophilic
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Acids, Base and Buffers• Acids-sour taste, conduct electricity, turn blue litmus
red, pH less than 7. Increase the concentration of H3O+(aq)
• Bases-bitter taste, slippery feel, conduct electricity, turn red litmus blue, pH greater than 7. Increase the concentration of OH-(aq)
• Pure water is neutral, pH of 7 (H3O+(aq) = OH-(aq))• When acids are mixed with bases it is considered a
neutralization reaction (water and salt are produced)
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Strong Acids and Bases
• Dependent on the degree they ionize when dissolved in water
• Strong acids (HCl) and bases (NaOH) ionize completely
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Weak Acids and Bases
• Weak acids (CH3COOH(aq) - acetic acid) and bases (NH3 (aq) – ammonia) ionize partially in water.
• They are reversible reactions in a state of equilibrium
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Acid-Base Buffers• Living systems are sensitive to pH levels• Living cells use buffers to resist significant changes in pH• Carbonic acid-bicarbonate buffer, most common.• When carbon dioxide and water react, they form
carbonic acid, which then ionizes to form bicarbonate and H+ ions.
• When H+ (aq) ions enter the blood (acidic food), HCO3 (aq)
reacts with it to produce H2CO3 (aq).
• Together they help maintain the pH of blood around 7.4