Introduction to Chemistry - The 10 Commandments of Chemistry
Summary
TLDRIn this educational video, Medicosa introduces a General Chemistry review series aimed at simplifying complex concepts. The video emphasizes the importance of understanding graphs, tackling chemistry problems methodically, and grasping the concept of entropy. It covers the fundamentals of matter, energy, and the significance of the periodic table in everyday life. Medicosa encourages active learning, advising viewers to watch videos daily, engage with the content, and maintain a 'booboo notebook' for mistakes. The series promises to demystify chemistry, making it accessible and practical.
Takeaways
- đ The video introduces a General Chemistry quick review playlist, aiming to simplify complex chemistry concepts into clear, concise lessons.
- đ Emphasis is placed on understanding how to read graphs, including recognizing the x-axis, y-axis, and the concepts of direct and inverse relationships.
- đ§Ș The 'Ten Commandments of Chemistry' are introduced as a framework for mastering chemistry, starting with graph interpretation and extending to entropy and the periodic table.
- đ The video explains how to calculate the slope of a graph, which represents density in the context of mass over volume, and how to interpret angles (Theta) in graph analysis.
- đ The importance of understanding the relationship between variables in equations is highlighted, with examples of direct and inverse proportionality.
- đ A methodology for tackling chemistry problems is presented, advising viewers to read the last sentence of a question first to focus their approach.
- âïž The video stresses the importance of note-taking, using pen and paper, and maintaining a 'booboo notebook' for recording and learning from mistakes.
- đ Entropy is introduced as a measure of disorder, with nature tending to move from low to high entropy, illustrating this with examples like melting ice.
- đą The difference between numerical values and measuring units is clarified, and the seven standard international base units of matter are listed.
- 𧩠The video discusses types of matter, distinguishing between pure substances, mixtures, and the difference between fundamental and derived quantities.
- đż Practical applications of the periodic table are explored, linking elements within the same group and their effects on human health, such as sodium and potassium.
Q & A
What is the first commandment of chemistry mentioned in the script?
-The first commandment of chemistry is to understand how to read graphs, including recognizing the x-axis, y-axis, and interpreting the relationship between directly related and inversely related entities.
What does the script suggest as the best method for learning chemistry?
-The script suggests learning chemistry by sitting at a desk upright with a pen and paper in hand, actively engaging with the material, and not just passively watching videos.
What is the significance of the 'Booboo notebook' or 'OPC notebook' as mentioned in the script?
-The 'Booboo notebook' or 'OPC notebook' is a mistakes journal where one should write down concepts learned from making mistakes in chemistry problems, which helps to avoid repeating those errors and become better at chemistry.
How does the script explain the concept of entropy in chemistry?
-The script explains entropy as a measure of disorder or randomness in a system. It states that nature tends to go from a state of low entropy (more order) to high entropy (less order), which is why processes in nature are often spontaneous and move from high energy states to lower energy states.
What is the difference between fundamental and derived quantities as discussed in the script?
-Fundamental quantities are the seven base units of the International System of Units (SI), which include length, time, temperature, mass, amount of substance, electric current, and light intensity. Derived quantities are those that are derived from combinations of the fundamental quantities, such as speed, which is derived from distance and time.
How does the script differentiate between physical, chemical, and nuclear changes?
-Physical changes involve small amounts of energy and do not alter the chemical composition of a substance, like ice melting. Chemical changes involve larger amounts of energy and result in a change in the chemical composition, like burning wood. Nuclear changes involve a tremendous amount of energy and involve changes at the atomic nucleus level.
What role does the periodic table play in understanding the properties of elements as per the script?
-The periodic table is crucial for understanding the properties of elements because elements in the same group or column often have similar properties, which can influence their behavior in biological systems and potential toxicity, as illustrated by examples of sodium, potassium, cadmium, mercury, and strontium.
What is the script's advice on how to approach multiple-choice questions in chemistry?
-The script advises to read the last sentence of a question first to focus the mind, write down all the given information and equations, and to double-check the answer before choosing from the options. It also warns against changing the answer unless there is a significant realization, such as an 'aha' moment.
How does the script define the relationship between two entities in a graph?
-The script defines the relationship between two entities in a graph by the slope (rise over run) and the angle (Theta) the line makes with the horizontal axis. A positive slope or angle indicates direct proportionality, while a negative slope or angle indicates inverse proportionality.
What is the significance of the 'Ten Commandments of Chemistry' mentioned in the script?
-The 'Ten Commandments of Chemistry' is a set of principles or guidelines provided in the script to help students understand and approach chemistry concepts effectively, including reading graphs, understanding entropy, and mastering the periodic table.
Outlines
đŹ Introduction to General Chemistry Quick Review
The speaker, Medicosa, introduces a General Chemistry Quick Review playlist, emphasizing clarity and conciseness in teaching chemistry. The video is aimed at students who find traditional teaching methods confusing and seek a straightforward approach. Medicosa outlines the 'Ten Commandments of Chemistry,' starting with understanding graph reading, including axes and relationships between variables. The playlist is designed to cover fundamental chemistry concepts, such as entropy, types of matter, standard units, and the implications of the periodic table. The speaker advises active learning, with the use of pen and paper, and maintaining notes for future reference. The importance of engagement and active viewing of the playlist is stressed, along with the complementary use of Medicosa's chemistry notes available on the website.
đ Understanding Graphs and Relationships in Chemistry
The paragraph delves into the importance of graph interpretation in chemistry, explaining how to read axes and differentiate between directly and inversely related entities. It uses examples to illustrate how the slope of a graph can represent density and how the angle theta, formed by the graph line and the x-axis, can indicate the relationship between variables. The speaker clarifies the difference between linear and non-linear relationships and provides a method to determine the slope through calculations. The concept of direct and inverse proportionality is explored through mathematical relationships, emphasizing the importance of understanding these relationships in various scientific fields.
đ§ Tackling Chemistry Problems with Strategy
Medicosa provides strategies for solving chemistry problems, suggesting starting with the last sentence of a question to focus the mind on the required variables. The speaker advises writing down the correct answer before looking at the multiple-choice options to avoid confusion. A systematic approach to problem-solving is recommended, including writing down all given values and equations. The importance of not changing answers without a clear reason is emphasized, with an exception for 'aha' moments. The concept of entropy as a measure of disorder and the natural tendency of systems to move towards increased entropy is introduced, using examples like the melting of ice to illustrate the principle.
đĄïž Numerical Values, Measuring Units, and Types of Matter
This section discusses the distinction between numerical values and measuring units, using examples like meters for length. It explores types of matter, differentiating between pure substances, which are either elements or compounds, and mixtures, which can be homogeneous or heterogeneous. The paragraph explains the seven standard international base units of matter, including their symbols and the importance of distinguishing between similar-sounding units, such as 'meter' and 'mole.' The concept of derived quantities is introduced, showing how they are calculated from fundamental quantities, exemplified by speed derived from distance and time.
âïž Changes in Matter and Energy Concepts
The video script explains different types of changes in matter, such as physical, chemical, and nuclear changes, each requiring varying amounts of energy. It contrasts physical changes, like melting ice, with chemical changes, like burning wood, and nuclear changes, which release massive energy. The concept of energy is explored, distinguishing between potential and kinetic energy, and providing examples of each type. The implications of understanding the periodic table are discussed, with real-world examples like the role of sodium and potassium in health, the function of the kidney's collecting duct, and the dangers of certain metal poisoning. The speaker emphasizes the relevance of chemistry to everyday life and health.
đ Conclusion and Invitation to Learn More
In the concluding paragraph, Medicosa poses two questions to the audience to apply the concepts learned, regarding the relationship between variables in an equation and the interpretation of graphs to determine compliance. The speaker encourages viewers to participate by sharing their answers in the comments and to look forward to the next video on significant figures and scientific notation. A call to action is made for viewers to subscribe, access premium content, and consider tutoring for deeper learning. The video ends with a reminder of the website for further resources and a farewell note, emphasizing the practical beauty of chemistry.
Mindmap
Keywords
đĄGraphs
đĄMedicosis Methodology
đĄEntropy
đĄMatter
đĄStandard International Base Units
đĄChanges in Matter
đĄEnergy
đĄPeriodic Table
đĄCommandments of Chemistry
đĄMistakes Notebook
Highlights
Introduction to Medicosa's General Chemistry Quick Review playlist, aiming to simplify complex chemistry concepts.
The Ten Commandments of Chemistry are introduced as a framework for understanding key chemistry concepts.
Commandment one emphasizes the importance of understanding how to read graphs, including the x-axis, y-axis, and the concept of slope representing density.
Explanation of the difference between directly related and inversely related entities on a graph.
The Medicosis Methodology for tackling chemistry problems is presented, focusing on a systematic approach.
Concept of entropy as disorder is introduced, with an analogy to rolling snowballs to illustrate the natural progression from order to disorder.
The significance of numerical values versus measuring units in chemistry is discussed.
Differentiation between types of matter: pure substances, mixtures, elements, and compounds.
Introduction to the seven standard international base units of matter, including their symbols and applications.
Explanation of fundamental quantities versus derived quantities in the context of the International System of Units (SI).
Discussion on changes in matter, including physical, chemical, and nuclear changes, and the energy involved.
Differentiation between potential and kinetic energy, with examples of each type.
Implications of understanding the periodic table, with real-world applications such as sodium and potassium in health.
Practical advice on how to study chemistry effectively, including the use of pen and paper, and the importance of a 'booboo' notebook.
The importance of active engagement with the study materials, rather than passive viewing, is emphasized.
Final thoughts on the beauty and importance of chemistry in everyday life, and a call to action for viewers to appreciate the subject.
Invitation to download Medicosa's renal physiology course for further in-depth study.
Transcripts
hello wonderful people it's medicosa's
perfect net is where medicine makes
perfect sense after the success of my
biology playlist and biochemistry
playlist it's time to talk about
chemistry if you're tired of your
professor's mumbo jumbo and want
something clear short and precise you
want to get in get out then this series
is for you it's medicosa's General
chemistry quick review playlist let's
get started when I talked about
metabolism in Biochemistry we had the
Ten Commandments of metabolism today we
have the Ten Commandments of chemistry
commandment number one Thou shalt
understand how to read graphs the x-axis
the y-axis Etc thou shall tell the
difference between directly related and
inversely related entities number three
learn how to tackle chemistry problems
or questions with a medicosis
methodology and of course you need to
understand the concept of entropy think
of it as disorder now next numerical
value versus the measuring unit what are
the types of matter and what the seven
standard international base units of
matter are and the difference between
fundamental quantities these seven and
derived quantities changes in matter
types of energy see it's all about
matter and energy and we'll conclude by
implications of periodic table plus
questions to get the most out of this
playlist do not watch these values while
sleeping on the couch instead I want you
sitting at your desk upright with a pen
and paper in hand how about an iPad and
apple pencil now why don't you like the
iPad I love the iPad it helped me make
more than 1800 videos on this channel
however for understanding for speed for
Less distractions there is nothing like
pen and paper also whatever you're
writing down on these papers do not
throw them away because they'll help you
tremendously in general chemistry
organic chemistry biochemistry so keep
them in a safe place next anytime we
encounter a question in the series
please pause the video and try to answer
this question yourself before I tell you
the answer and not just pen and paper
you will need to bring a brand new
mistakes notebook also known as Booboo
notebook or oopsies and anytime you make
a mistake in one of these questions
write the concept that you learned in
the OPC notebook your booboo notebook
plus my handwritten notes will make you
invincible in chemistry please save this
playlist called General chemistry review
and watch these videos in order every
single day you have no idea how much you
can accomplish in a short period of time
do not wait until YouTube recommend my
videos to you because when you're
browsing YouTube before bed you're not
in mood to study chemistry obviously so
you'll skip my videos two or three days
in a row so YouTube will say aha you are
not interested in chemistry anymore and
will stop recommending my videos you
need to actually save the playlist and
actively come every day intentionality
people at the end of this playlist there
will be an ultimate chemistry review one
humongous video revealing all of
chemistry and will be tons of questions
these videos go hand in hand with my
chemistry notes which you can download
on my website
meticosisperfectsnetis.com 10
commandments of chemistry number one how
to read graphs the first step in reading
a graph is to look at the horizontal
axis and the y-axis oh we have time here
we have concentration here or any other
entity next what if I told you that this
is volume and this is mass what do you
think the slope of this line is its mass
over volume rise over run and mass over
volume is density so the slope of that
graph will represent density because
density is mass over volume rise over
run this slope also equals 10 of theta
angle the angle Theta is between pay
attention the slope this diagonal line
right here and the x-axis so it's
between the diagonal and the horizontal
line it's here not here if you put it
here you will ruin everything the Theta
is here it's how much did I Rise Above
the run so do you see this lovely line
right here let's call it X and then let
me draw another liner here and call it y
between X and Y which one has higher
density well Whoever has the highest
slope and which one has the biggest
slope whatever has the biggest Theta
angle so y has a higher slope which
means y has a higher density assuming
that mass is on the y-axis and volume is
on the x-axis so first step you look at
the X sees and then you look at the
relationship if we're going this way
it's directly related which means as the
volume goes up the mass goes up but what
if it was the other way around if as
volume goes up Mass goes down then the
graph will look like this oh you see the
difference between this and this going
up going down let's play with some
numbers suppose that this Theta angle
right here is 45 degrees what's the
slope well 10 of 45 equals one positive
1 that is how about here where is the
angle Theta oh Miracles it's this one 90
degrees shut up oh then it has to be
this one between this line and the
horizontal which is about 45 also shut
up because if this is the Theta then tan
of the theta equals positive one well
how come this is positive one and this
is positive one even though this is
directly proportional and this is
inverse related cannot happen it's
impossible
Theta is here my friend it's the angle
between this line and the horizontal
axis it's how much did I rise over the
Run oh look at all of this so let's say
it was
135 degrees what is 10 of 135 answer
negative one because these things are
directly correlated you get a positive
it's a positive correlation but these
two entities X and Y are negatively
correlated inversely proportional so you
get a negative one see it makes perfect
sense once you understand what the flip
you're talking about and there is
another way to get the slope it's the
rise over the run the change in the rise
over the change in the run so let's just
imagine some numbers imagine that this
point is one and this point is two and
then imagine that this point represents
three and this is a two what's the the
change in the rise 2 minus 1 is 1 over
the change in the Run 3 minus 2 is also
one one over one is one positive one
that is let's play the same game over
here this is two and this is one and
here we have two and three and then you
have the change in the Y so it's Y2
minus y1 over X2 minus X1 where is Y2
here it's the one not the two and
where's y1 it's here so it's 1 minus two
over three minus two equals negative one
over one equals negative one that's the
slope of this graph right here another
fundamental question what's the
difference between this line right here
and something that looks like this well
easy the straight line is a linear
relationship they are directly related
in an arithmetic manner but look at this
non-linearity non-linear relationship or
geometrical or exponential Etc the same
thing could be told of the inverse I can
draw a line or if it's non-linear I can
draw something like this chemistry
commandment number two how can we read
such a thing well A and B are directly
related to each other numerator
numerator with equal in between how
about between a and C A and C are
inversely related to one another
assuming that b remains constant now
suppose that a remains constant what's
the relationship between B and C meaning
if C increases and a stays the same
what's going to happen to be answer B
will also go up how come when two
entities are divisible by each other
they are directly related to each other
if two entities are divisible by one
another then they are directly related
provided that the third entity stays
constant and that's why a and B are
directly related when C remains constant
because A and B are divisible by each
other how come I can put B down here so
it become if A over B and then what was
under here is one one over C so I can
put it this way A over B equals 1 over C
and when you draw it this way now A and
B are divisible by one another if two
entities are divisible by one another
they are directly correlated with one
another as a goes up B goes up provided
that c remains constant but what if two
entities are multiplied by one another
Like A and C here because I can
rearrange this to become a times C
equals 1 times B you can ignore the one
if two entities are multiplied by one
another then they are inverse related to
one another so by keeping B constant as
a goes up C goes down as a goes down C
goes up how about an equation like this
this is addition and subtraction instead
of multiplication and division when two
entities are added to one another they
are inverse related but when they are
subtractable from one another they are
directly related can I make a minus C
sure you can bring C here with a
negative sign so it becomes a minus C
equals negative B A minus C oh
subtractable from one another directly
related how about B and C are they
subtractable from one another absolutely
I can bring the B here it becomes C
minus B oh c minus B subtractable from
one another then they are directly
related so the more of the story is if
two entities are divisible by one
another they are directly related or if
two entities are subtractable from one
another still directly proportional but
if you can multiply them together or add
them together then they are inversely
proportional to one another and this is
very important to understand chemistry
equations physics equations biochemistry
equations physiology equations all kinds
of equations so we're done with one and
two let's go to number three how to
tackle chemistry problems on your exam
here's the deal if the question stem is
long you should read the last sentence
first and the last sentence could be
what's the density oh now you'll go up
and continue reading the entire thing
but now your mind is focused oh I'm
looking for Mass I'm looking for volume
so that I can get the density so get the
mask get the volume faster then if you
have read the whole thing from top to
bottom Because by the time you end up
here oh density density is worth like
Mass over volume so let me go up again
and find the mess and the volume you
will waste a lot of time doing this read
the last sentence first okay what's the
density you had the mess you had the
volume you divided the mass buy the
volume and you got your density try to
write down the correct answer before you
look at the choices the answer choices
are not your friends they are your
enemies they are there to use you and
confuse you so you get your answer first
oh I know the density is going to be two
kilograms per liter after this you can
look at the choices until you find the
two kilograms per liter and then you
pick that one here is another thing that
can happen some people say it will find
two here and then they will stop reading
the rest of the choice and oh a is the
correct answer I'm sure no you need to
read all the choices because sometimes a
is two but it was 2 grams per liter
instead of kilograms per liter which was
written here you have to read all of the
choices before you pick an answer
another important tip write down all the
nouns if here they told you that the
mass was 4 kilograms and then you write
down m equals 4 kilograms and here they
told you that the volume was 2 liters
right down that V equals 2 liters write
down the equation density equals mass
over volume M over V 4 over 2 equals 2
kilograms per liter you need to have a
system to tackle these problems
otherwise the professor is going to run
circles around you after you chose the
correct answer double check your answer
and here's the thing please listen
carefully do not change your answer do
not change your answer do not change
your answer no Exceptions there is only
one tiny exception if you have an aha
moment if the question said all of the
following statements are true except and
then you did not read except the first
time so you chose your answer based on
the fact that there was no except now
that you've discovered there is accept
at the end of the sentence you're now
allowed to change your answer because
that's a major aha moment but if it's
just doubting yourself no stick with the
old answer stick with the first answer
that you chose most cases it's the
correct one hammericosis what if I have
no idea which of these is more likely be
true like I am clueless then pick anyone
do not leave it empty you can even pick
your favorite letter I don't care do not
leave it empty next entropy disorder
Randomness Freedom here's the thing
about nature nature loves going downhill
this is tweetable right there memorize
this nature loves to go downhill from
high energy states into lower energy
states get that snowball rolling When
You observe snowballs rolling are they
rolling downhill or uphill I'm talking
spontaneously without anyone pushing
them oh they will roll downhill that's
exactly the point nature goes from high
energy to low energy and from more order
like this to less order like this get a
cube of ice leave it at room temperature
picture and see what's gonna happen it
will change from solid which is well
organized like this into water liquid
water which is less organized I went
from more order to less order do you
think if you leave the ice at the room
temperature long enough the water can
turn back into ice never because nature
only goes downstairs
I can put it in the freezer nah that's
different that's not spontaneous anymore
now you are actively adding energy to
the water to make it back into ice
that's different we're not talking about
that we're talking about naturally
spontaneously without any intervention
without adding any energy from outside
you're always going to go from high
energy to low energy from more order to
less order I.E from less disorder into
more disorder because if something has
less order it has more disorder and
what's the word that is synonymous with
disorder entropy so nature loves to go
from low entropy to high entropy if an
organized arranged deck of cards fall
off the balcony it will go from more
order organized deck into less order
disorganized deck no matter how long you
wait it's not gonna reshuffle itself
back to an orderly order again it's not
gonna happen now these are the basics
when you go to a theoretical physics
later they will tell you it's not 100
it's just that it's way way way way way
more likely this way than the other way
okay who cares extremely unlikely and
impossible are not that different from a
practical standpoint so we go from less
disorder into more disorder that's why
scientists predict that eventually the
sun will run out of light all life forms
that we know will perish as the universe
increases in in entropy next numerical
values and measuring units if I say
250.21 meters the 250.21 is the
numerical value and the meter is the
measuring unit let's talk about matter
and energy starting with matter types of
matter matter could be Pure or could be
a mixture energy could be potential
energy or kinetic energy let's start
with matter Pure or mixture what do you
mean by pure I mean it's easy to
separate them physically relatively
speaking and if you just have one type
of atom we call you an element if you
have two or more types of atoms we call
the a compound example when I say oxygen
oh that's an element one type of atom is
just oxygen how about water oh that's a
compound because here I have two types
of atoms I have hydrogen atoms and an
oxygen atom if the matter is not pure it
is a mixture meaning cannot be easily
separated and we have two types
homogeneous mixtures which are identical
in composition throughout or
heterogeneous mixtures can you give me
an example of homogeneous mixture sure
how about adding some salt to water
steering the salt until it disappears
until we have a salt solution oh that's
homogeneous when you look at that water
it has the same composition whether
you're looking up the glass down the
glass in the middle of the glass doesn't
matter but let's add oil to water oh
that's hydrogen oil will remain on top
water at the bottom with a layer in
between heterogeneous not identical
composition throughout next we'll talk
about the seven standard international
base units of matter and there you go we
have length time temperature mass amount
of substance electric current light
intensity how do you measure length the
measuring unit is meter how about time
in seconds temperature in kelvins Mass
kilogram items amount of substance more
electric current and pair light
intensity Candela note lowercase M meter
for length but uppercase m means mole
for the amount of substance one has
nothing to do with the other so we have
to pay close attention moreover Candela
abbreviated lowercase C lowercase D what
if it was upper KC lowercase D that's
cadmium an element of the periodic table
has nothing to do with the Candela so
pay attention to how they are written
why do we call this s i base units
system international it's a French term
if we take two of these fundamental
quantities we can derive a derived
quantity from them for example you look
at this meters okay over time in seconds
what do you call that speed is speed one
of these no is it derived from some of
these yes so speed here is that derived
quantity while distance and time are
fundamental quantities after talking
about types of matter let's talk about
changes in matter physical changes
chemical changes nuclear changes
physical changes are involved with small
amount of energy chemical usually larger
nuclear ethi humongous amount of energy
as ice melts that's a physical change
burning wood is a chemical change more
energy a nuclear reactor can release
tons of energy and we can use that
energy to generate an electrical current
next let's talk energy we have two big
categories of energy potential energy
and kinetic energy potential means
stored energy kinetic Kinesis movement
energy in motion potential energy
includes chemical energy nuclear energy
gravitational energy elastic energy how
about kinetic energy motion motion
mechanical oh I'm moving electrical
electrons are moving thermal heat energy
is being transferred from the Hutt to
the cold object radiant oh radioactive
active active in motion last some
implications of understanding the
periodic table instead of just
memorizing everything like a freaking
donkey let me actually explain to you
why this is vital I'll just give you
five facts many patients have high blood
pressure doctors will say eat less salt
decrease your sodium intake some of
these patients go to the store and they
will find sodium Alternatives guess what
these sodium alternatives are made of
potassium why is that because it
belongeth to the same group or column in
the periodic table so potassium can
replace sodium in the food fact number
two some doctors will recommend that
these patients with high blood pressure
lower their sodium intake and raise
their potassium intake fruits and
vegetables and less of these spicy
noodles fact number three the last part
of your kidney is known as the distal
collecting duct after this we have the
collecting ducts these collecting Ducks
tend to reabsorb sodium but excrete
potassium bring their sodium back to the
system but then get rid of the potassium
why do they do that because sodium and
potassium compared with one another why
they belong to the same group in the
periodic table the same part of your
kidney can also reabsorb sodium and
excrete hydrogen oh how come they belong
to the same group in the periodic table
next cadmium poisoning mercury poisoning
can replace zinc in your RNA polymerase
which means no transcription for you
which means no protein synthesis that's
why cadmium poisoning and mercury
poisoning are not good for foreign it's
all here baby in the periodic table fact
number five strontium from radioactive
fallout can be dangerous for you why
because strontium and calcium belong to
the same group in the periodic table
meaning strontium can kick the calcium
out of your bones bones without calcium
are weak increasing your risk of
fractures so after all of this I do not
want to hear oh I have no idea why we're
studying chemistry oh my goodness
chemistry is so beautiful chemistry is
life I just told you about five vital
facts from the periodic table if you
want more check out my video titled
minerals you'll find that in my
biochemistry playlist and there you go
the Ten Commandments of basic chemistry
and before we go here are two questions
for you question one if a plus b equals
c will keep C constant a will go up
what's going to happen to be is it going
to go up down no chain change or it
depends second question we have three
graphs here A B and C which one of them
has the highest compliance knowing that
compliance is the change in volume over
change in pressure but I've not studied
compliance before that's the point you
can answer this question without knowing
what the flip compliance is it's all
about Concepts do you understand the
concept do you know how to read a graph
please let me know the answers to these
questions in the comment section you'll
find the answer key in the next video
when we talk significant figures and
scientific notation I've talked a lot
about the distal convoluted tubule and
the collecting duct of your kidneys do
you want to learn more about filtration
reabsorption secretion titratable
acidity of the kidney the counter
current multiplier and much more then
download my renal physiology course at
meticosisperfectsnetis.com thanks for
watching please click the join button
choose the highest tier to gain access
to more than 300 premium videos right
now subscribe hit the Bell smash like if
you want my notes or if you want me to
tutor you go to
medicosisperfectsnetis.com be safe stay
happy study hard this is medicosa's
perfect snail is where medicine makes
perfect sense medicine and chemistry
5.0 / 5 (0 votes)