6.3.2 Trends in Boiling Points

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Created by
Jack

Cards (64)

  • If you were to compare the boiling points of helium and radon, what trend would you expect to see?
    Radon has a higher boiling point than helium
  • What are noble gases known for?
    They are very unreactive elements
  • What does it mean for noble gases to be monatomic?
    They consist of single atoms, not molecules
  • Which noble gas has the highest boiling point and why?
    Rn, due to largest size and most electrons
  • What is the relationship between atomic radius and ionization energy?
    • As atomic radius increases, ionization energy decreases
    • Larger atoms have lower ionization energies
  • What happens to the movement of noble gas atoms as their boiling points increase?
    They become harder to move from gas to liquid
  • How does the stability of noble gases contribute to their applications in technology?
    Stability allows safe use in lights and lasers
  • What type of forces do noble gases experience?
    London forces
  • What does the increase in boiling points down Group 0 indicate?
    It indicates the properties of noble gases.
  • What does a stable electron configuration mean for noble gases?
    Their outer electron shells are full
  • What are the trends in melting and boiling points of the noble gases as atomic number increases?
    • Melting and boiling points generally increase with increasing atomic number
    • Helium has the lowest melting and boiling points
    • Xenon has the highest melting and boiling points
  • If you were given a sample of an unknown noble gas, how could you use the information in this graph to identify it?
    • Measure the melting and boiling points of the unknown gas
    • Compare the measured values to the data in the graph
    • The noble gas with matching melting and boiling points is the identity of the unknown sample
  • What factors contribute to the increase in boiling points of noble gases?
    • Increase in atomic number
    • Increase in atomic mass
    • Increase in atomic size
    • Greater difficulty in transitioning from gas to liquid
  • What happens to interatomic attractions as atomic radius increases in Group 0 elements?
    Interatomic attractions become stronger
  • How does the size of noble gas atoms affect their boiling points?
    Larger atoms are harder to move from gas to liquid
  • What is the melting point of helium (He)?
    0.95 K0.95\text{ K}
  • What is the relationship between atomic radius and boiling point in Group 0 elements?
    • Atomic radius increases from He to Rn
    • Larger atomic radius leads to stronger interatomic attractions
    • Stronger attractions result in higher boiling points
  • What factors influence the boiling points of noble gases?
    • Atomic Size: Larger size leads to stronger London forces and higher boiling point.
    • Electron Number: More electrons result in stronger London forces.
  • What is the boiling point of krypton (Kr)?
    119.93 K119.93\text{ K}
  • What is the melting point of argon (Ar)?
    83.81 K83.81\text{ K}
  • How do the boiling points of the noble gases change as you go down the periodic table?
    • The boiling points increase as the atomic number and atomic mass increase.
    • This is due to the increasing van der Waals forces between the larger, more polarizable atoms.
  • What is the boiling point of neon (Ne)?
    27.07 K27.07\text{ K}
  • How does electron affinity relate to the periodic table?
    • Electron affinity generally increases from left to right across a period
    • Electron affinity generally decreases from top to bottom in a group
  • What visual representation is used to indicate atomic radius in the study material?
    Teal arrows
  • How do argon, krypton, and xenon compare to helium and neon regarding liquefaction?
    They liquefy easier than helium or neon.
  • What states are argon, krypton, and xenon at room temperature?
    They are gases.
  • Why do boiling points of noble gases increase as we move down the group?
    Due to increasing mass and size of atoms
  • Which element has the largest atomic radius in Group 0?
    Radon (Rn)
  • Why are helium and neon gases at room temperature?
    Because their boiling points are low.
  • Why is radon a liquid at room temperature?
    Due to its high boiling point.
  • What is the boiling point of helium (He)?
    -269 °C
  • What are the limitations of using only melting and boiling point data to identify noble gases?
    • Some noble gases have very similar melting and boiling points (e.g. argon and krypton)
    • Additional information like density or spectroscopic data would be needed to definitively identify the gas
    • The graph only shows data for the 6 stable noble gases, so it cannot identify radioactive noble gases
  • Why do larger atoms have stronger London forces?
    Their larger electron clouds can become better polarized
  • What state are helium and neon at room temperature?
    They are gases.
  • What does it mean for noble gases to be inert?
    They do not readily react with other elements
  • What is the relationship between atomic number and boiling point in noble gases?
    Higher atomic number correlates with higher boiling point
  • What are the boiling points of the noble gases shown in the image?
    • Helium (He): -269 °C
    • Neon (Ne): -246 °C
    • Argon (Ar): -186 °C
    • Krypton (Kr): -153 °C
    • Xenon (Xe): -108 °C
    • Radon (Rn): -62 °C
  • Why are noble gases often used in lights or lasers?
    Because of their stability
  • What is the boiling point of argon (Ar)?
    -186 °C
  • What type of intermolecular forces are stronger in larger atoms?
    London forces