A red blood cell ina hypotonicsolution willexplode becauseof the flow of waterinto the cell.KbWater movesout of thecell in ahypertonicsolution. As water escapesthrough the leaves ofthe tree, the osmoticpressure decreaseswhich causes thewater to movetowards the leaves(up).DistillationThe vapor pressurecurve of the solutionis lower than that ofwater (because thesolute lowers thevapor pressure of thesolvent)ColligativepropertyIncreasingconcentrationfalseThe solutelowers thevaporpressure ofthe solventThe normalfreezingpoint of aspecifiedpure solventDirectlyproportionalR =0.0821(L)atm /(mol)KThe salt particles(solute) in theocean make itsfreezing point lowerthan the freezingpoint of pure waterPouring salt on iceadds solutes to H2O,lowering the freezingpoint to prevent icefrom freezing overthe roads againThe solvent ismoving from an areawith higher soluteconcentration to anarea with lowersolute concentration.Difference offreezing pointbetween asolution and it’spure solvent3The number ofdegrees the freezingpoint changes when1 mole of solutedissolves in 1kilogram of solvent5:evaporationThe triple pointof the solutionis lower relativeto the puresolventTb >T°bThe solution’slower vaporpressure reducesthe triple point,which reducesfreezing pointVaporTrueTf <T°fIt willincreaseboilingpointA red blood cell ina hypotonicsolution willexplode becauseof the flow of waterinto the cell.KbWater movesout of thecell in ahypertonicsolution. As water escapesthrough the leaves ofthe tree, the osmoticpressure decreaseswhich causes thewater to movetowards the leaves(up).DistillationThe vapor pressurecurve of the solutionis lower than that ofwater (because thesolute lowers thevapor pressure of thesolvent)ColligativepropertyIncreasingconcentrationfalseThe solutelowers thevaporpressure ofthe solventThe normalfreezingpoint of aspecifiedpure solventDirectlyproportionalR =0.0821(L)atm /(mol)KThe salt particles(solute) in theocean make itsfreezing point lowerthan the freezingpoint of pure waterPouring salt on iceadds solutes to H2O,lowering the freezingpoint to prevent icefrom freezing overthe roads againThe solvent ismoving from an areawith higher soluteconcentration to anarea with lowersolute concentration.Difference offreezing pointbetween asolution and it’spure solvent3The number ofdegrees the freezingpoint changes when1 mole of solutedissolves in 1kilogram of solvent5:evaporationThe triple pointof the solutionis lower relativeto the puresolventTb >T°bThe solution’slower vaporpressure reducesthe triple point,which reducesfreezing pointVaporTrueTf <T°fIt willincreaseboilingpoint

Chapter 16: Colligative Properties of Solutions - Call List

(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


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  1. A red blood cell in a hypotonic solution will explode because of the flow of water into the cell.
  2. Kb
  3. Water moves out of the cell in a hypertonic solution.
  4. As water escapes through the leaves of the tree, the osmotic pressure decreases which causes the water to move towards the leaves (up).
  5. Distillation
  6. The vapor pressure curve of the solution is lower than that of water (because the solute lowers the vapor pressure of the solvent)
  7. Colligative property
  8. Increasing concentration
  9. false
  10. The solute lowers the vapor pressure of the solvent
  11. The normal freezing point of a specified pure solvent
  12. Directly proportional
  13. R = 0.0821 (L)atm / (mol)K
  14. The salt particles (solute) in the ocean make its freezing point lower than the freezing point of pure water
  15. Pouring salt on ice adds solutes to H2O, lowering the freezing point to prevent ice from freezing over the roads again
  16. The solvent is moving from an area with higher solute concentration to an area with lower solute concentration.
  17. Difference of freezing point between a solution and it’s pure solvent
  18. 3
  19. The number of degrees the freezing point changes when 1 mole of solute dissolves in 1 kilogram of solvent
  20. 5: evaporation
  21. The triple point of the solution is lower relative to the pure solvent
  22. Tb > T°b
  23. The solution’s lower vapor pressure reduces the triple point, which reduces freezing point
  24. Vapor
  25. True
  26. Tf < T°f
  27. It will increase boiling point