chem

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    Created by
    Merina Joseph

    Cards (129)

    • as atomic number of alkali metals increases the first ionisation energy decreases
    • covalent radius (atomic size) DECREASES across a period, and INCREASES down a group
    • electronegativity INCREASES across a period, and DECREASES down a group
    • metallic -> metallic lattice
      covalent -> network
      covalent -> molecular
      LDF -> monatomic
    • LDF determine the melting point of covalent molecular bonding and monatomic bonding
    • covalent molecular:
      • gas= H2, N2, O2, F2, Cl2
      • solid= P4, S8, C60 (fluorine)
    • monatomic = noble gases (do not form bonds)
    • Ionic bonding:
      • metal and non-metal
      • conduct as (l) or (aq) molten as ions are free to move
      • do not conduct as solid
      • soluble in water or polar solvents
      • STRONG BONDS
    • metallic:
      • positive ions and delocalised electrons
      • STRONG BONDS
    • covalent network:
      • VERY STRONG BONDS
      • NEVER CONDUCT, no free charged particles
      • graphite conducts as it has delocalised electrons
    • Covalent molecular:
      • any compound thats (l) or (g) at room temperature
      • intramolecular bonds = strong (covalent bonds)
      • intermolecular forces = weak
    • equal negativity = pure covelant
    • big difference in electronegativity= ionic
      small difference in electronegativity= covalent
    • London Dispersion Forces:
      • exists between all molecules + atoms
      • weakest intermolecular force
      • uneven electron distribution= temporary dipole and induced dipole
      • increased electrons = increased LDF
      • only force between monatomic elements
    • Hydrogen Bonding:
      • large difference in electronegativity
      • STRONGEST intermolecular force
      • H bonded to N, O, F
      • soluble in polar solvents
    • Permanent Dipole-Permanent Dipole:
      • soluble in polar solvents
      • exists between polar molecules
      • different electronegativities
      • delta negative on stronger element
    • PD-PD:
      • linear= polar if connected to group 7
      • angular= polar if connected to group 6/7
      • trigonal pyramidal= polar is connected to group 5/7
      • tetrahedral= NON-POLAR if all connected elements are the same
    • all hydrocarbons are non-polar and only have LDF between their molecules
    • viscosity =thickness of liquid (how easily it flows)
    • viscosity is impacted by:
      • molecular mass
      • molecular size
      • strength of intermolecular force
    • strongest to weakest intermolecular force:
      • covalent network
      • metallic
      • ionic
      • Hydrogen bonding
      • Permanent Dipole-Permanent Dipole
      • LDF
    • viscosity, melting point, and boiling point are impacted by type of intermolecular force
    • LIKE DISSOLVES IN LIKE
      NON-POLAR DISSOLVES IN NON-POLAR
      POLAR DISSOLVES IN POLAR
    • LDF= uneven distribution of electrons, causing temporary dipole-induced dipole
    • LDF increase as size and number of electrons increase
    • London Dispersion Forces exist between layers
    • oxidation is loss of electrons
      reduction is gain of electrons
    • redox reactions are when oxidations and reduction reactions both take place
    • oxidising reactants are reduced and reducing reactants are oxidised
    • reduction= copy databook
      oxidation= flip equation
    • reducing agents donate electrons and oxidise themself
      oxidising agents accept electrons and reduce themself
    • ignore spectator ions: ions that are not involved in the reaction, but are present in the solution
    • oxidising + reducing agents can be elements, compounds or group ions
    • reducing agents have low electronegativities as they easily lose electrons and be oxidised
    • strongest reducing agents are in group 1 or top RHS of electrochemical series
    • carbon monoxide is a reducing agent we use to produce metals
    • oxidising agents are found in group 7 or the bottom LHS of the electrochemical series, they have a high electronegativity
    • oxidising agents uses:
      • medical usage= killing fungi, bacteria, inactivating viruses
      • bleaching agent= clothes, hair (hydrogen peroxide)
    • KMnO4 is used to treat athletes foot
    • ion electron equations:
      • balance equation
      • add water to balance oxygen
      • add H+ to balance hydrogen
      • add electrons to balance charge (same side as H+)
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