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The Chemical Context of Life

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A substance consisting of two or more elements combined in a fixed ratio ... 4 Elements make up 96% of living matter. Carbon. Oxygen. Hydrogen. Nitrogen. Remaining 4 ... – PowerPoint PPT presentation

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Title: The Chemical Context of Life


1
The Chemical Context of Life
  • AP Biology Chapter 2

2
Chemistry Basics
  • Matter
  • Anything that has mass and takes up space.
  • Element
  • Substance that cannot be broken down into other
    substances by chemical reactions.
  • 92 elements occur in nature
  • Compound
  • A substance consisting of two or more elements
    combined in a fixed ratio
  • Compound has characteristics beyond those of its
    combined elements.
  • NaCl

3
Life Requires about 25 Elements
  • 4 Elements make up 96 of living matter.
  • Carbon
  • Oxygen
  • Hydrogen
  • Nitrogen
  • Remaining 4
  • Phosphorous
  • Sulfur
  • Calcium
  • Potassium
  • A few others
  • Trace Elements required in only minute
    quantities and not necessarily in all species.
  • Iron
  • Iodine

4
Atomic Structure
  • Atom
  • Smallest unit of matter that still retains the
    properties of an element.
  • Subatomic Particles
  • Nucleus center of the atom
  • Neutrons
  • Mass
  • No charge
  • Protons
  • Mass
  • Positive charge
  • Electrons
  • VERY LITTLE mass
  • Negative charge
  • Move very rapidly outside the nucleus

5
Atomic Structure - Energy Levels
  • Energy is defined as the ability to do work.
  • Potential Energy is the energy that matter stores
    because of its position or location
  • Matter has a natural tendency to move to the
    lowest possible state of potential energy
  • Electrons have potential energy due to their
    position in relation to the nucleus

6
Energy Levels
  • Negatively charged electrons are attracted to the
    positively charged nucleus
  • The more distant the electrons are from the
    nucleus the greater their potential energy
  • Changes in the potential energy of electrons can
    occur only in steps of fixed amounts.
  • Ball on step analogy

7
Energy Levels
  • Different states of potential energy for
    electrons in an atom are called energy levels or
    electron shells
  • Electrons in the first shell closest to the
    nucleus have the least potential energy
  • An electron can change its shell, but only by
    absorbing or losing an amount of energy equal to
    the difference in potential energy between the
    old shell and the new shell

8
Energy Levels
  • Light energy can excite an electron to a higher
    energy level
  • To move to a shell closer in, an electron must
    lose energy which is usually released to the
    environment in the form of heat.

9
Electron Orbitals
  • The 3-D space where an electron is found 90 of
    the time is called an orbital.
  • Each orbital can hold two electrons
  • The first energy level has only one orbital, and
    can hold only 2 electrons total.
  • The second energy level has 4 orbitals and can
    hold up to 8 electrons total.

10
Electron Shells
11
Electron Orbitals
12
Valence Electrons
  • The most important electrons in determining the
    chemical behavior of an atom are the electrons in
    its outermost energy level, or its valence
    electrons.
  • These are the electrons that most readily contact
    other atoms, since they are located on the
    outermost energy level.
  • The outermost electron shell is the valence shell.

13
Reactivity and the Valence Shell
  • An atom with a a complete valence shell (that is,
    8 electrons in its outermost shell) is fairly
    unreactive with other atoms INERT.
  • Atoms that do NOT have a complete outer shell are
    much MORE reactive.
  • Atoms desire a COMPLETE outer shell that is,
    an outer shell with 8 electrons.

14
Chemical Bonds
  • Chemical bonds form between atoms as they combine
    with other atoms to fill / complete their outer
    electron shells.
  • Atoms combine so that each partner completes its
    valence shell.
  • They may share electrons
  • They may transfer electrons totally from one atom
    to another
  • Either scenario results in a chemical bond
    between the atoms

15
Covalent Bonding
  • The sharing of a pair of valence electrons by two
    atoms
  • A very strong bond
  • Two or more atoms held by a covalent bond
    molecule
  • A molecule made of two different elements is
    called a compound
  • a hydrogen molecule is not a compound
  • A water molecule IS a compound
  • The bond most often found in biological molecules
  • Proteins, carbohydrates, nucleic acids and lipids.

16
Types of Covalent Bonds
  • Single Covalent Bond the sharing of ONE PAIR of
    electrons between two atoms
  • Example Hydrogen Molecule
  • Double Covalent Bond the sharing of TWO PAIRS
    of electrons between two atoms
  • Example Oxygen Molecule

17
Types of Covalent Bonds
  • Polar vs. Nonpolar covalent bonds
  • Electronegativity the attraction of an atom for
    the electrons of a covalent bond.
  • The more electronegative the atom, the more
    strongly it pulls shared electrons toward itself.
  • If the two atoms are the same (two hydrogens)
    then their electronegativity is equal. The
    covalent bond that results is NONPOLAR
  • If one atom is MORE electronegative than another,
    then the electrons will NOT be shared equally
  • OXYGEN is VERY electronegative
  • In a water molecule, electrons will be pulled
    more towards oxygen than towards hydrogen
  • This results in the negatively charged electrons
    spending more time near oxygen than hydrogen
    the molecule has ends of slightly different
    charge. It is said to be POLAR.

18
Ionic Bonds
  • Two atoms may be SO unequal in their attraction
    for electrons that one completely strips
    electrons from the other
  • This results in an IONIC bond
  • Atoms sharing an ionic bond have opposite
    electrical charges because one has transferred an
    electron to the other
  • The ionic bond results from the attraction of
    these opposite electrical charges
  • Example - NaCl

19
Ionic Bonding - Salt
20
Weak Chemical Bonds
  • Hydrogen Bonds
  • VERY important in biological molecules
  • Occur BETWEEN two separate molecules (for example
    2 molecules of water), NOT WITHIN a SINGLE
    molecule (for example, covalent bonds between
    hydrogen and oxygen in a water molecule).
  • Hydrogen bonds are WEAK, but much stronger than
    having no bond at all

21
Other Weak Bonds
  • Ionic Bonds are relatively week when in the
    presence of WATER.
  • Van der Waals Interactions
  • Ever changing hot spots of positive and
    negative charge can exist around atoms that have
    even NONpolar bonds.
  • This is because electrons are always in motion
  • These hot spots enable all atoms and molecules
    to stick to one another at least weakly and only
    when the atoms are VERY close together.

22
Chemical Reactions
  • The making and breaking of chemical bonds leading
    to changes in the composition of matter are
    CHEMICAL REACTIONS
  • Reactants
  • Products

23
Chemical Equilibrium
  • Some reactions go to completion most do not
  • Most reactions are reversible
  • Chemical equilibrium exists when the
    concentrations of reactants and products stop
    changing
  • Reactions ARE still going on, but with no net
    effect on the concentrations.
  • Dynamic equilibrium
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