Below are sixty-three ionic reactions. According to the solubility rules, if a precipitate forms, write the formula and make sure that the equation is balanced. If no reaction is formed, write "NO REACTION" HINT: If you do this right, there will be 21 reactions with precipitates Na+ + Cl NaCl Na+ + Br Đ Na Br Na+ + CO3²- → Na₂CO3 → Precipitate Na+ + NaOH Na+ + Na+ + Na+ + K+ + K+ + K+ + K+ + K+ + K+ + K+ + Ca²+ + Ca²+ + Ca²+ + Ca²+ + Ca²+ + Ca²+ + OH NO3 → -> NaNO3 SO4²- → N9₂804 PO4³- → N93P04 зроч CI- Br kCl → ква CO3²- ОН- NO3 → SO4²- PO4³- → CI → Br CO3²--> OH NO3 -> NO3™ SO4²- k₂00₂- kett KN0₂ K₂804 K 3 804 Call Cabr Caloz CaOH (q (NO₂)2 Ca 804 → Precipitate precipitate precipitate

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LAB NINE: Solubility
Before we begin the worksheet, let's do some safety for our (hypothetical) compounds that
are being "used".
Hazardous Chemical
Silver Nitrate
Ammonium hydroxide
Iron (III) chloride
Copper (II) carbonate
Sodium carbonate
Aluminum Nitrate
calcium bromide
Potassium Phosphate
Flammable
(Flash Point)
Toxic
XX
x
Corrosive
XX
XX
X
Details of Hazard
X X Eye, skin irritation
Eye, skin irritation
Eye, skin irritation
Eye, skin irritation
Eye
X
X
x lx
Oxidizing
X
X
X
Eye irritation, skin irritation
Eye irritation, skin irritation
Eye, skin irritation
Eye irritation, skin irritation
Many of the systems studied in this course involve solutions. It is therefore important that you
become familiar with the qualitative and quantitative aspects of solubility and
solutions. This experiment will demonstrate some of the factors affecting the
solubility of a substance, changes occurring in the formation of a solution, and
methods of expressing the relative amount of solute in a solution.
If we mix solid AgNO3 with water, it dissolves and forms a strong electrolyte
solution. Silver chloride, on the other hand, is almost completely insoluble. If we
mix solid AgCl with water, virtually all of it remains as a solid within the liquid
water.
Whether a particular compound is soluble or insoluble depends on several
factors. Predicting whether a compound will dissolve in water is not easy. The
best way to do it is to conduct experiments to test whether a compound will
dissolve in water, and then develop some rules based on those experimental
results. We call this method the empirical method.
Now, make sure to look up solubility rules either online or in your textbook, and
use them to investigate the following reactions.
AgNO3(aq)
Soluble
AgCl(s)
Insoluble
NO3
Ag
-CI-
Ag+
Transcribed Image Text:LAB NINE: Solubility Before we begin the worksheet, let's do some safety for our (hypothetical) compounds that are being "used". Hazardous Chemical Silver Nitrate Ammonium hydroxide Iron (III) chloride Copper (II) carbonate Sodium carbonate Aluminum Nitrate calcium bromide Potassium Phosphate Flammable (Flash Point) Toxic XX x Corrosive XX XX X Details of Hazard X X Eye, skin irritation Eye, skin irritation Eye, skin irritation Eye, skin irritation Eye X X x lx Oxidizing X X X Eye irritation, skin irritation Eye irritation, skin irritation Eye, skin irritation Eye irritation, skin irritation Many of the systems studied in this course involve solutions. It is therefore important that you become familiar with the qualitative and quantitative aspects of solubility and solutions. This experiment will demonstrate some of the factors affecting the solubility of a substance, changes occurring in the formation of a solution, and methods of expressing the relative amount of solute in a solution. If we mix solid AgNO3 with water, it dissolves and forms a strong electrolyte solution. Silver chloride, on the other hand, is almost completely insoluble. If we mix solid AgCl with water, virtually all of it remains as a solid within the liquid water. Whether a particular compound is soluble or insoluble depends on several factors. Predicting whether a compound will dissolve in water is not easy. The best way to do it is to conduct experiments to test whether a compound will dissolve in water, and then develop some rules based on those experimental results. We call this method the empirical method. Now, make sure to look up solubility rules either online or in your textbook, and use them to investigate the following reactions. AgNO3(aq) Soluble AgCl(s) Insoluble NO3 Ag -CI- Ag+
Below are sixty-three ionic reactions. According to the solubility rules, if a precipitate forms,
write the formula and make sure that the equation is balanced. If no reaction is formed, write
"NO REACTION"
HINT: If you do this right, there will be 21 reactions with precipitates
Na+ + CI-
NaCl
Na+ +
Br
→ Na Br
Na+ +
CO3²- → Na₂CO3 → Precipitate
2-
Na+ +
NaOH
Na+ +
Na+ +
Na+ +
K+ +
K+ +
K+ +
K+ +
K+ +
K+ +
K+ +
Ca²+ +
Ca²+ +
Ca²+ +
Ca²+ +
Ca²+ +
Ca²+ +
ОН-
NO3 →
NaNO3
SO4²- → Na₂04
2-
PO4³- →
3-
CI-
Br →
CO3²- →
2-
ОН-
NO 3¯
SO4²-
SO4²- →
N43P04
зроч
KCL
ква
→ кон
CI-
Br
CO3²- →
OH
NO3 ->
SO4²- →
2-
K₂ CO₂ →
касоз
KNO₂
К2804
PO4³-→ K3804
3-
→
Eg CL₂
Cabr
Precipitate
precipitate
Ca(03
CaOH
(a (NO₂)2
Ca804 precipitate
Transcribed Image Text:Below are sixty-three ionic reactions. According to the solubility rules, if a precipitate forms, write the formula and make sure that the equation is balanced. If no reaction is formed, write "NO REACTION" HINT: If you do this right, there will be 21 reactions with precipitates Na+ + CI- NaCl Na+ + Br → Na Br Na+ + CO3²- → Na₂CO3 → Precipitate 2- Na+ + NaOH Na+ + Na+ + Na+ + K+ + K+ + K+ + K+ + K+ + K+ + K+ + Ca²+ + Ca²+ + Ca²+ + Ca²+ + Ca²+ + Ca²+ + ОН- NO3 → NaNO3 SO4²- → Na₂04 2- PO4³- → 3- CI- Br → CO3²- → 2- ОН- NO 3¯ SO4²- SO4²- → N43P04 зроч KCL ква → кон CI- Br CO3²- → OH NO3 -> SO4²- → 2- K₂ CO₂ → касоз KNO₂ К2804 PO4³-→ K3804 3- → Eg CL₂ Cabr Precipitate precipitate Ca(03 CaOH (a (NO₂)2 Ca804 precipitate
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