What is the purpose of the osmosis experiment?

The purpose is to observe the effect of different concentrations of solutions on the osmosis process in plant tissue, specifically potatoes.

Why are all potato cylinders cut to the same length?

Cutting all the potato cylinders to the same length ensures consistency and allows for easier comparison of results.

What are the concentrations of solutions used in the experiment?

The concentrations used are distilled water, 0.25 molar sucrose, and 0.5 molar sucrose solutions.

What equipment is used to measure the potato cylinders?

A basic ruler and a top pan balance accurate to two decimal places are used for measuring length and mass, respectively.

How are the experimental results recorded?

Results are recorded by measuring the change in length and mass of potato cylinders before and after placing them in solutions.

How is the percentage change in mass calculated?

The percentage change is calculated by taking the difference in mass (current mass minus initial mass), dividing by the initial mass, and multiplying by 100.

Why is a bun placed over the test tube?

A bun is placed over the test tube to prevent evaporation of the solution, especially in hot weather.

What does a decrease in mass indicate in this experiment?

A decrease in mass indicates osmosis where water has moved out of the potato cells due to a higher concentration of sugar in the solution.

Why is a line of best fit useful in the analysis?

It's useful to determine the point where the sugar concentration inside and outside the potato tissue is the same, indicating no net osmosis.

What are possible improvements suggested for the experiment?

Using vernier calipers for more accurate length measurements is suggested as an improvement.

Osmosis - GCSE Science Required Practical

00:12:13

https://www.youtube.com/watch?v=oieXYuQm_xE

Zusammenfassung

TLDRThe video details a practical experiment on osmosis using potato cylinders submerged in solutions with varying sucrose concentrations. The initial steps involve preparing and cutting uniform potato samples to ensure reliable comparison of results. The experiment employs distilled water, 0.25, and 0.5 molar sucrose solutions. Measurements of both length and mass are meticulously recorded before and after immersion in the solutions over 24 hours. The video further explains calculating percentage changes in mass to identify trends of osmosis based on different solution concentrations. It highlights an increase in mass in distilled water due to water influx and a decrease in 0.5 molar sucrose solution, asserting the principle of osmosis. Recommendations for enhanced accuracy, such as using vernier calipers, and addressing the effect of solution evaporation with a bun cover, are also discussed.

Mitbringsel

🔬 The experiment demonstrates osmosis using potato plant tissue and different solution concentrations.
🥔 Potato cylinders are used to maintain consistent samples for reliable results.
📏 Measurements of length and mass are crucial and taken before and after soaking in solutions.
💧 In distilled water, potato cylinders gain mass due to water influx by osmosis.
🔍 Vernier calipers could improve measurement accuracy over basic rulers.
📉 A decrease in mass is observed in higher sucrose concentration solutions, indicating water loss.
💡 Percentage change calculations help compare the effect of each solution on osmosis.
🧪 Various sucrose solutions are used to interpret the relationship between concentration and osmosis.
🚫 A bun is used to prevent evaporation during experimentation.
📊 A line of best fit can indicate the internal sugar concentration of the potato by neutralizing mass changes.

Zeitleiste

00:00:00 - 00:05:00
The video begins with an overview of an osmosis practical experiment focused on testing the effects of different solution concentrations on potato tissue. To ensure consistency and allow for easy comparison of results, the narrator uses a cork board to cut potato samples of the same diameter. These samples are then trimmed to remove the impermeable potato skin and cut to approximately 3 cm in length using a ruler, ensuring uniform sample size. Each sample is then measured for both length and mass using a ruler and a top pan balance respectively, with each cylinder weighing in at exactly 2.92 grams. Three different solutions are prepared, including distilled water, 0.25 molar sucrose, and 0.5 molar sucrose, poured into separate tubes labeled clearly to avoid mix-up. A bun is added to tubes to prevent evaporation. This meticulous preparation allows the samples to absorb or lose water under controlled conditions, making it easier to later analyze the impact of osmosis.
00:05:00 - 00:12:13
After 24 hours, the potatoes are removed from their solutions, dried to remove surface moisture without losing water from within the tissue, and then measured for changes in length and mass. The potato in distilled water increased two millimeters in length and gained mass, while the one in the 0.25 molar sugar saw a slight mass increase but no length change. Conversely, the potato in 0.5 molar sucrose lost mass and became floppier, hinting at a higher water loss. This empirical data is used to determine water migration in the potatoes, with results recorded meticulously for analysis. Differences in initial measurements necessitated calculating percentage change to standardize comparisons across samples. The narrative concludes with an interpretation of results: as sugar concentration in the solution increases, the osmotic activity increases, leading to greater water loss from potatoes. The plotted graph illustrates this trend and identifies the isotonic point where potato mass does not change, indicating the internal concentration of the potato tissue.

Mind Map

Häufig gestellte Fragen

What is the purpose of the osmosis experiment?
The purpose is to observe the effect of different concentrations of solutions on the osmosis process in plant tissue, specifically potatoes.
Why are all potato cylinders cut to the same length?
Cutting all the potato cylinders to the same length ensures consistency and allows for easier comparison of results.
What are the concentrations of solutions used in the experiment?
The concentrations used are distilled water, 0.25 molar sucrose, and 0.5 molar sucrose solutions.
What equipment is used to measure the potato cylinders?
A basic ruler and a top pan balance accurate to two decimal places are used for measuring length and mass, respectively.
How are the experimental results recorded?
Results are recorded by measuring the change in length and mass of potato cylinders before and after placing them in solutions.
How is the percentage change in mass calculated?
The percentage change is calculated by taking the difference in mass (current mass minus initial mass), dividing by the initial mass, and multiplying by 100.
Why is a bun placed over the test tube?
A bun is placed over the test tube to prevent evaporation of the solution, especially in hot weather.
What does a decrease in mass indicate in this experiment?
A decrease in mass indicates osmosis where water has moved out of the potato cells due to a higher concentration of sugar in the solution.
Why is a line of best fit useful in the analysis?
It's useful to determine the point where the sugar concentration inside and outside the potato tissue is the same, indicating no net osmosis.
What are possible improvements suggested for the experiment?
Using vernier calipers for more accurate length measurements is suggested as an improvement.

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Untertitel

Automatisches Blättern:

00:00:00
right today we're going to look at the
00:00:01
required practical for osmosis looking
00:00:04
at the effect of different
00:00:07
concentrations of solutions on some
00:00:09
plant tissue our plant tissue being a
00:00:11
potato and we'll talk more about the
00:00:14
different concentration of solutions in
00:00:15
a moment but what I want to do first is
00:00:17
prepare my potato my plant tissue to do
00:00:21
that we have a cork board this is going
00:00:25
to allow me to take samples and potato
00:00:27
that are all the same diameter and
00:00:32
that's going to important so I can
00:00:34
compare my results more easily so here
00:00:38
is one cylinder now I'm going to cut
00:00:40
three cylinders I'm just going to set up
00:00:42
three different concentrations of
00:00:46
solution today so one cylinder to
00:00:50
cinders and my third potato
00:00:53
cinder notice these are all coming from
00:00:55
the same potato that should help keep my
00:00:57
results more consistent each other
00:01:00
easier for me to compare my results with
00:01:02
each other now what I want to do now is
00:01:06
just going to cut the ends off the ends
00:01:08
of these as a potato skin it's going to
00:01:10
move those they are impermeable they
00:01:13
will not allow water into the tissue
00:01:16
that's not what we're looking for this
00:01:17
experiment all about water either moving
00:01:20
into the plant cells or out of the plant
00:01:23
cells and that's really what osmosis is
00:01:25
I've now got where cylinders they are
00:01:28
all the same length which is vital or
00:01:30
approximately the same length so again
00:01:31
helping me to compare my results later
00:01:33
on but the instructions asked me to
00:01:35
measure them into three centimeter
00:01:37
lengths so I'm just going to go with
00:01:39
that but they are about same length
00:01:40
which is fine so the cut each one now
00:01:42
I'm only using a ruler here not the most
00:01:47
accurate way of measuring these but
00:01:50
we'll get will go with it
00:01:51
I'll talk about that in a moment I've
00:01:54
got one
00:02:00
- so that's again three centimeters get
00:02:03
getting as close as I can to three
00:02:04
centimeters while using a ruler three so
00:02:10
I now have three as identical I can get
00:02:13
them pieces of potato tissue
00:02:16
well I now need to do is measure them
00:02:18
very accurately as best as I can I'm
00:02:20
going to measure both their lengths
00:02:21
using a ruler and also their maths using
00:02:25
the top pan balance so the ruler I can
00:02:28
measure them and that one is exactly
00:02:31
thirty millimeters so they are all
00:02:35
exactly 30 minutes millimeters now I
00:02:37
need to record those results I need to
00:02:39
note sure that I know the length of each
00:02:41
sender if they're different they're all
00:02:43
the same in this case it doesn't really
00:02:44
matter so need to recall those in my
00:02:46
results table and then it's away their
00:02:49
mass so on this balance what I'm using
00:02:52
here is a balance that has two decimal
00:02:54
places on it so it is accurate to a
00:02:56
hundredth of a gram so I'm using a very
00:02:59
high resolution top top and balance here
00:03:02
to get very accurate result we're going
00:03:04
to see probably very small changes in
00:03:06
our mass here which is why we need to
00:03:08
use this piece of equipment why it's
00:03:09
appropriate and we have a mass of 2.92
00:03:14
grams so I need to record that in my
00:03:15
results table having recorded the length
00:03:19
and mass this potato cylinder it now go
00:03:21
to my boiling tube boiling tube I need
00:03:24
to place some liquid into it now I'm
00:03:26
going to start with distilled water so
00:03:28
this is pure water so it's our first one
00:03:32
so the puts in here I'm going to get
00:03:35
down level I level of the measuring
00:03:37
cylinder so I can very measure very
00:03:39
accurately 10 millimeter milliliters of
00:03:43
distilled water so go try to keep
00:03:49
everything exactly the same between all
00:03:52
my expense to help me compare my results
00:03:55
there's my distilled water very
00:03:58
important and I'll label this so I know
00:04:00
what's in here
00:04:06
so I can't mix up my samples which would
00:04:09
be make it very hard to work out what's
00:04:12
happened this experiment it's so hot at
00:04:14
the moment I am going to add a bun to
00:04:16
this not necessary if we only do this
00:04:19
experiment for a short period of time or
00:04:21
if the weather is not too hot this will
00:04:23
help prevent any evaporation liquid out
00:04:25
of the tube so this is my first sample I
00:04:28
need to do that for my remaining two
00:04:30
cylinders adding 0.25 molar sucrose so
00:04:36
this is slightly sugary solution so it's
00:04:39
got some sugar added to the water so
00:04:41
this is sort of slightly sugary water
00:04:44
and I'm going to add to another one 0.5
00:04:47
molar sucrose this is a stronger
00:04:49
solution of sugar and we need to see how
00:04:52
these three solutions affect the potato
00:04:55
now I have set some up earlier I did
00:04:57
this yesterday allowing this to run for
00:04:59
24 hours to help my results hopefully
00:05:02
increase a bit so it should get bigger
00:05:04
results and if I just do it for a short
00:05:05
period time so Blue Peter moment income
00:05:08
some that I made earlier so I no need to
00:05:12
collect my results having left my
00:05:13
samples overnight and so we're going to
00:05:15
show you how to do that so get my
00:05:18
distilled water sample first which is
00:05:20
this one now I need to pour away the
00:05:23
water I'm going to collect the potato
00:05:25
cylinder into a sieve it's off camera
00:05:27
but I'm just going to pour it into a
00:05:28
sieve it's quite damp it's quite wet
00:05:31
wetter than when I first got it from
00:05:34
potato so we just remove the excess
00:05:36
water on the outside of this that might
00:05:38
affect the results quickest way to do
00:05:40
that it's very quickly roll it onto the
00:05:43
main paper towel it does not want to sit
00:05:45
on the green paper towel that could draw
00:05:47
liquid out of the tato which would
00:05:50
affect my results but I have now removed
00:05:51
the excess liquid so now measure my
00:05:54
length again I'm using a ruler as I did
00:05:58
before and has increased to 32
00:06:01
millimetres length it's an increase of
00:06:03
two millimeters there is another piece
00:06:06
of clip we could use to measure length
00:06:08
called vernier calipers these measure
00:06:10
length more accurately so we could use
00:06:12
these as an improvement to the expense
00:06:14
but we're not going to do that today
00:06:15
I now need to measure the mass of my
00:06:18
potato after it's being distilled water
00:06:20
for 24 hours on to the balance and it is
00:06:25
now three point 1/2 grams that is that's
00:06:30
actually increased from 2.9 for grams so
00:06:33
again we have an increase here in in our
00:06:36
results an increase in length and an
00:06:37
increase in mass with distilled water
00:06:39
these results must be written down in
00:06:41
your results table so I've gotta click
00:06:43
those results and I need to do the same
00:06:45
for the other two solutions so they're
00:06:48
0.25 molar sugar solution again so get
00:06:56
pour away the water
00:06:57
Claire toss cylinder quickly dry it
00:07:01
measure the length it should thirty
00:07:08
millimeters no real change there measure
00:07:12
the mass which is three point zero six
00:07:15
grams which is a very small increase
00:07:17
yesterday's result before putting into
00:07:20
the sugar solution was two point nine
00:07:22
six grams so a very very small increase
00:07:24
hit so having measured that one I need
00:07:27
to write the results down and move on to
00:07:28
my third sample which is the potato left
00:07:31
in the strongest solution of sugar
00:07:33
naught point five molar sugar solution
00:07:36
so again collect my potato cylinder
00:07:40
quickly dry on the paper removing excess
00:07:43
liquid now I can actually feel this one
00:07:46
it's quite floppy compared to the others
00:07:48
which gives us a clue as well how
00:07:51
results may look in a moment I measure
00:07:54
the length hasn't particular changed may
00:07:56
have gone down very slightly I can't
00:07:58
really tell the actress's ruler so the
00:08:01
length may decrease slightly I think
00:08:02
that was about thirty millimeters hasn't
00:08:04
really changed measure the mass and the
00:08:08
mass is now two point six two grams
00:08:10
there's a decrease yesterday I measured
00:08:13
this at two point eight seven grams so
00:08:15
it has decreased in mass so the other
00:08:18
two samples so an increase in mass this
00:08:21
one has decreased in mass so there's a
00:08:22
difference there need to be thinking
00:08:24
about why the two different results have
00:08:26
occurred
00:08:27
so we've now collect our results
00:08:29
the next stage is to think about what we
00:08:34
can do with that data so you need to
00:08:36
calculate the difference in mass and the
00:08:38
difference in length from yesterday to
00:08:41
today you some of them the mass would
00:08:43
have increased and for some of them the
00:08:45
mass will have decreasing you to work
00:08:47
that out okay so I've measured my length
00:08:51
of my cinders yesterday
00:08:53
and today I've made my mass my cinders
00:08:54
yesterday and today my potato tissue and
00:08:57
we've seen this in difference already we
00:08:58
need to calculate the exact differences
00:09:00
so what I'd like what you now need to do
00:09:02
is take your length today your final
00:09:06
length and minus the initial length to
00:09:09
get a difference has it increased or
00:09:11
decreased in length so you may get a
00:09:12
negative number just decrease in length
00:09:14
you may get a positive number is
00:09:15
increase in length so you do the same
00:09:17
for all three senators then do the same
00:09:19
for mass so again mass today your second
00:09:25
mass minus the initial mass and get
00:09:28
looking you may get a positive number an
00:09:30
increase in mass you might get a
00:09:31
negative number a decrease in maths
00:09:35
unfortunately because potations were not
00:09:38
actually all identical to start now I
00:09:40
did try very hard to keep them identical
00:09:42
but they were not all the same mass at
00:09:44
the start that makes it very hard to
00:09:46
compare my results what I need to do is
00:09:49
a little calculation that makes it much
00:09:52
easier to compare my results a
00:09:53
calculation called percentage change so
00:09:57
now you've got your change in results
00:09:59
you take that change in mass so your
00:10:02
mass today
00:10:03
minus your initial mass divide it by
00:10:06
your initial mass multiply that number
00:10:09
by a hundred and you have a percentage
00:10:12
change so again if it is increasing mass
00:10:14
to have a positive percentage increase
00:10:17
and if you have decreasing mass with a
00:10:19
negative percentage change and some
00:10:22
potato did increase in mass and some did
00:10:23
decrease in this nation okay you should
00:10:26
be thinking about why that has happened
00:10:28
if I did quite a few results more than
00:10:31
I've done today you might get a graph
00:10:33
that looks something like this
00:10:35
so here's a what I've just sketched
00:10:37
earlier it's not not particularly
00:10:39
accurate but does show you the pattern
00:10:41
you would
00:10:41
expect to see so you can see here over
00:10:44
here we've got a very pure water and our
00:10:46
potato should gain a mass and as our
00:10:49
concentration of sugar increases so as
00:10:51
we add more and more sugar dissolve more
00:10:54
more sugar in in the water
00:10:56
we increase the sugar concentration you
00:11:00
might talk about decreasing the
00:11:02
concentration of the water we might see
00:11:05
that the results decrease so initially
00:11:07
our gaining mass gets less and less and
00:11:11
less notice the language i've used there
00:11:12
the gain in mass is decreasing
00:11:16
we then get a point where our mass may
00:11:20
or may not change we might not see that
00:11:22
in our experiment but from a line of
00:11:23
best fit we can see there's a point
00:11:25
where there is no change in mass that's
00:11:28
a very useful bit of information this
00:11:30
tells you actually how much sugar is
00:11:33
within the potato tissue itself though
00:11:35
the the water concentration the sugar
00:11:38
concentration within the sugar or in the
00:11:39
potato is here so we can estimate that
00:11:42
by where this line of best fit crosses
00:11:44
this axis and then down here so down
00:11:47
below this axis we have a loss of mass
00:11:50
that is getting bigger and bigger so an
00:11:53
increasing loss of mass so the more
00:11:56
concentrated sugar the more water the
00:11:59
more mass the potato should lose so
00:12:02
that's down here so this is what's
00:12:03
happening down here and that is osmosis