TITLE : test
of electrolyte solution and non-electrolyte solution
DAY, DATE : Monday,
16 february 2017
PURPOSE : Testing conductivity through the solution
Identify electrolyte and non electrolyte solutions
Theoretical
basis :
Electrolyte solution is a solution that can conduct
electricity. While the non electrolyte solution is a solution that can not
conduct an electric current.
Electrical conductivity of the electrolyte
solution depends on its type and concentration. Electrical conductivity of the
solution is the ability of the solution to conduct electricity.
A strong electrolyte solution is a solution that
can conduct an electric current well. This is because the solute will decompose
completely (degree of ionization = 1) into ions so that in the solution
contains many ions.
A weak electrolyte solution is a solution which
can conduct a weak electrical current. This is because the solute will
partially decompose (degree of ionization? << 1) into ions so that in the
solution it contains a little ion.
TOOLS
AND MATERIALS :
Tool
1. 2 large batteries
2. 1 lamp
3. Cable + and -
4. Crocodile clamps + and -
5. Paper sandpaper
6. 2 large battery cathode
7. Triplek
Materials
1. Rain water and battery water
2. Sugar water (4 spoons)
3. Salt water (salt box)
4. Soap water (4 scoops of detergent)
5. Vinegar
6. Urea (3 spoons)
7. Alcohol 70%
WORK PROCEDURES :
1) Run the electrolyte test kit.
2) Check if the electrolyte tester works properly
or not if the two electrodes are connected, the lamp can be on.
3) Insert one of the solutions to test its
electric conductivity strength with 2 cathodes into the beaker halfway up.
Notice not to touch.
4) Record and check what happens to the
appliance, whether the light is on or off, has a bubble or not.
5) Clean both cathodes / electrodes with
sandpaper.
6) Repeat activities 3-5 until all the solutions
are addressed.
OBSERVATION RESULT :
DISCUSSION :
1) Rainwater is supposed to be non-electrolyte
because, no bubbles are tested and lights are not lit, but in our test
solutions the lights are dimmed, this may be because our electrolyte test
equipment is dirty or even faulty.
2) The salt water should be brightly lit and has
a lot of bubbles and includes a strong electrolyte, but in our experiments the
solution is not lit but there are bubbles and are classified as weak
electrolytes, this may be due to an error in our electrolyte test kit.
3) Sugar water including weak electrolytes,
lights are not lit and have bubbles, but the labs we do show no lights and no
bubbles, this may be because our electrolyte test equipment is dirty or even
wrong.
4) Vinegar acids should be dimmed and there are
bubbles, but the results of our test shows lights are not lit, this may be due
to fault / damage of the test equipments.
5) Ethanol (alcohol) should not light on, there
is a bubble but our test results lights are not lit and no bubbles. This may be
because our tool error or test tool is dirty.
6) Sulfuric acid (battery water) is actually
lights are bright and there are bubbles, but the test solution that we do
produces that lights turn red. Maybe this is because our test equipment is less
clean.
7) The soapy water is basically a brightly lit
lamp and there is a bubble, but our lab results show the light is not on. It
may be due to an error in our electrolyte test kit.
8) Urea includes weak electrolytes, no lights on
but no bubbles.
9) Ammonia supposedly lights are dim and there
are bubbles, but our lab results show no lights on and no bubbles. This may
happen because our electrolyte test equipment is dirty or even wrong.
10) Hydrochloric acid should be brightly lit and
there are bubbles, but the results of our lab show lights are dimmed. This may
happen because our electrolyte test equipment is dirty or even wrong.
11) The aquades include non-electrolyte solutions
because the lights are not lit and there are no bubbles.
CONCLUSION
:
Of the results obtained that the non-electrolyte 1 and 11 and 2,7,8,10 solutions were powerful electrolyte solutions and solutions of 3.4,5.9 weak electrolyte solutions. A strong electrolyte solution produces bright lights and there are bubbles, a weak electrolyte solution only bubbles and also dim lights, and that non-electrolyte solution does not produce bubbles and lights do not light
Why electrolyte solution have a hight boiling point?
BalasHapusbecause electrolyte solution have Van't Hoff factor, factor Van't Hoff is a distinguishing feature between electrolyte solution and non-electrolyte, or between strong electrolyte and weak electrolyte. This factor belongs only to the electrolyte compound and as a multiplier to the colligative properties so as to be directly proportional. Van't Hoff factor i = 1 + (n - 1) α, with n = number of ions and α = degrees of ionization.
HapusIs there any other way to test the solution is electrolyte or nonelectrolyte? If any explain what kind of way!
BalasHapusI do not know fira but I know this test is the easiest
HapusWhat the functions of Electrolyte solution in daily life?
BalasHapusOne of them is energy storage, as the most concrete example is the battery.
HapusHow to characterize the electrolyte solution after seeing the results of experiments performed ?
BalasHapusFrom the observation of the electrolyte solution will produce bubbles and can light the lamps brightly
HapusWhat is the function of vinegar in your experiment?
BalasHapusVinegar is used as a practicum material
HapusPut one solution to test the strength of its electrical conductivity with 2 cathodes into a half-way beaker, what solution do you mean?
BalasHapusMy point is chemical solution not solution
Hapuswhy you use Triplek in the experiment?
BalasHapusPlywood or triplek is a kind of wood for the base of the experiment
HapusRainwater should not be electrolyte because, no bubbles are tested and lights are not lit, but in our test solution the lights are dim. Is there any other reason than you explain in the article?
BalasHapusI do not know another reason but it could be a tool to test is not first cleaned
Hapus