- Lesson details
Join Ukrainian-born artist Iliya Mirochnik as he passes on a 250-year-old academic method preserved at the Repin Academy in Saint Petersburg, Russia and seldom taught outside of the Academy and never before on camera.
The Russian Academic drawing and painting approaches were uninterrupted by the modern art movements that transformed representational art in the West, and as a result, they provide a unique and clear lineage to the greater art traditions of the past. As a powerful approach that is both constructive and depictive, it combines the two methods that prevail in contemporary representational art.
In these three drawing Courses, we have set out to condense the entire program, spanning over eight years into a logical, step-by-step procedure. We have made improvements and added resources and exercises to explicitly drive home the concepts that are required to work in this approach.
We have also structured the course so that it is not only useful for professional and experienced artists but also artists with no drawing experience whatsoever.
The first course: the Fundamentals is our most comprehensive beginner-level course to date, including everything you need to get started.
In this lesson, Iliya will train you on one of the most important elements in the Russian drawing approach: form. Using simple geometric forms, you will learn how to correctly describe three-dimensional volume in your work.
You will learn how to draw the cube, cylinder, and cone from observation as well as how to construct these forms from imagination. Then you will combine both approaches and construct the forms from observation.
The New Masters Academy Coaching Program directly supports this Course. If you enroll in the coaching program, you can request an artist trained in the Russian Academic Method including Iliya Mirochnik himself. Click here to enroll in the Coaching Program.
- Graphite pencils
- Kneaded and Hard Erasers
- Sanding Block
- Utility Knife
- Roll of Paper, Smooth Sketchbook paper
- Staple gun
- Light source
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learned to take an angle and transfer it onto a piece of paper and
also establish your proportions, it's now time to turn our attention to
an actual object in front of us. And so here we have the cube.
And we've already worked a little bit
with the cube in learning to
take our angles and to establish our proportions so I think you should be
comfortable with it by now.
So what you'll need for this is your
pencil, your eraser, and your needles.
Now we are going to be
drawing the cube using
the techniques that we have covered. And
it'll be entirely based on what's in front of us
and our perception of
the object from where
we are in space.
establishing an angle. Let's
start with the bottom edge over there, it is the
same place we
So you can
find that angle, all you have to do is,
as we practiced, you put one of the needles up as a
vertical constant, line up the other one with the edge, and
put it against your paper.
And you find
a point, hold it up, and see
that it lines up with another point
that you are making, make sure that
you're correct, even go back to the cube,
move back to your paper. There's no point in speeding this up.
And now you connect them.
continue all the way.
As far as you can. Okay
so the next point that we need
is our corner and then
the other edge that
we can perceive from our angle, going off of
the line that we made. So we're going to be
doing the same thing.
Hold it up,
lock it in place,
bring it up,
and get that angle. Good.
I'm gonna move it a little bit.
And now transfer it to your paper and make sure the two lines
intersect around the
middle of your paper. So one of the points that you need
will actually be on the line that you already drew.
Let's see if that's right. I might need to lower this a bit.
Pull it back, make sure you're on the right track.
Okay. So now we've established
parts of our cube.
So what we need to do from here
is to get this
line that we see, the closest -
the closest intersection of the two planes that are in front of us,
the closest corner, and
you don't actually need to take this angle because we are going to -
I mean you can, but we're going to assume, and for the most part
it is going
to be because of how large it is,
a complete vertical line. So from this point that we have
all you need to do is
get a vertical.
And that's what we have
here. Okay. So we're going to continue.
So we now need to establish
the corner up here
is. So in order to
from the cube in front of us, only using the
techniques that we learned, we're going to take the angle
corner to that one.
then you place the line anywhere along -
you place a line anywhere along that
will intersect these two lines that we already
have at any point along the line depending on how large you want the cube
to be on the page. So what I'm going to do
at this point is - I think
that this seems alright -
and then we find the proportion and then you establish -
I'm gonna go back over and make sure
it's right. Get them in my hand, move
it over and find that point on this line,
step back and make sure it's right, it seems okay, we're good.
So now we have
those two points that are going to be quite important.
And so, since we've decided that this line
is completely vertical, we're going to continue with that same logic
and our - all of our
vertical edges are going to be completely vertical
and just - you can take it all the way up.
Now in order to establish the amount that we have
on this side of the cube, we're going to do the
exact same thing that we did here, going
from that point to that point except now we're going from that point
to the opposite one along the surface
of that plane.
Let's see - so let's
get that in place.
That seems right. Do the same. Now
you already have a point there, hold it up
and mark where the other point
is, line them up, see if you're good.
I actually will probably move this over a little bit, see if you're
correct. Take your time and make sure you get everything exactly as it should be,
move it over,
I think that's good. And so now we have that.
At this point -
also this is a vertical. So
before we move on, it's now time to see
if our angles were correct by
double checking them with a proportional
measurement. So we're gonna take a
simple measurement that is horizontally across, a lot like
I showed you in one of the previous
assignments. So I'm curious to
see the amount that this part of the
cube will go into that part of the cube.
So when I see it in life, I'm locking it in,
the point of the needle is on the outer edge, my thumb
is on the closer edge and then I move
it over and then I do it again and I'm getting slightly under one and half
times. So let's see.
Do this here, that's what we need there, we'll move
this over, I'll even do a mark, and then we even
move it over and I'm
in exactly one and a half times. So let's
try this one more time to see if it's right. One.
Yeah, I think one and
a half is good. It seems to correspond
angle that we took between these two points. And I will
double check again.
It actually seems to be slightly
closer than the line I have, which will pull it to right under
one and a half times.
So I think we're good.
At this point if there are any lines that
you made that you're not happy with, that are potentially inaccurate, just -
you can clean them up with the eraser
and we're almost there.
So what we need
now is to get the angles of the
plane that is on top. So since we have -
since we have that point, all we need
to do is continue
with our angles.
Line them up, keep that there.
Okay. We'll just hold it in place.
Make sure that line is on the point and find
where the other
is. Line them up,
a little higher, and connect
Let's keep at it. Now we're going from here
into there. And now we continue. Now we're
going from that point to the other side of our cube.
Line them up,
hold it in place, align it and make sure your point is there,
and connect them.
And clean out
what you don't want.
Let's keep at it.
This is the time to go
over and get your lines a little cleaner.
You can reinforce them a little bit. It's looking
okay for now. Okay so the next
order of business is now to get these lines in the back.
Now there are a few ways.
You can obviously work along
this edge or you can establish that angle. I would do all of them
actually to make sure you get them right. So I'm gonna start with
Let's find it there.
Can find it right there, get the point
get another point, and
pull them all the way.
what we - so right now we're gonna get the other side
but you can get that angle also
because it'll tell you where that point is and then you'll be able to
connect them. The order here won't matter. I'll start from the outside though.
Then I can transfer -
got that point there,
that point right there, look back, make sure
and connect them.
And what we need
to do is to make sure we have it right. And now it's time to
get to double check our point.
Here I'm using the constant as a horizontal and
finding where this line is.
And that seems about right.
matches up to this -
now it's -
now that we have our lines you can remove
some of the extras.
So this was a cube
that you drew
entirely from observation.
We are going to be talking about light and shadow
so we're just gonna keep this in line
at the moment.
Alright. So there you have it. Next time
I'm going to explain a little bit about the construction of cubes.
your home that will stand in for a rectangular solid.
A shoebox, a shipping box, even a big book will do just fine.
Place it in front of you and use your knitting needles to transfer all of the
edges and their corresponding angles in the order that I showed you
with the cube in the video. Practice this technique with five different
box objects or rotate the box and draw it from different angles
entirely from observation, let me tell you a little bit about the
construction of a cube or
a rectangular prism. Now if you've
noticed that when you're taking each angle,
moving it over to your piece of paper, taking the angle after that,
this takes quite a long time. And so I believe that an understanding of
the structure of a cube can
speed things up and also allow you to work from imagination.
So I'm going to demonstrate a few concepts
on the piece of paper in front of me. And you can just follow along.
So in order to begin we need
to establish something that's known as
the horizon line.
Which we will just call - this is our horizon line,
you can call it H.
And so the basic
idea that I want to get across
as an object moves farther away
from you it becomes smaller. And there are
a few things that happen to the angles within
that object - and especially a cube - that I
would like to cover. So along -
on our horizon line, let's put a point on one end
and a point on the other end. This will be
our vanishing point
V one and this is our vanishing point number two or
V two. So
in order to structure a cube
on the plane that's here
all you need to do is extend a line from
your vanishing point and then extend another
line onto the surface.
And then do
the same thing here
and there. And so
this right here gives us a plane.
Then the next thing you should do is pull up
the corners of this plane, completely vertically.
You pick a point along that
and you move it back towards your vanishing point
back towards your vanishing point over there and
Okay. So the idea
behind the horizon line is that it is exactly
where your eyes are, whether you are
standing up or
in a chair if you're looking in front of you, your eyes
are the horizon line. So
this'll be also your
eye line. So the
important thing to understand is that if you have
plane of an
object, in this case a cube or a
rectangular prism, and it lines up exactly
with your horizon line
it becomes a line.
And so the other idea is that if you have - and so if we
what will become the closest edge to us -
we mark that as the end, we mark that as the end - all things below
your horizon line are going -
up towards it. And all things above your horizon line
are going back
down towards it. And the same on the other side.
And then you lock it in.
And so obviously the closer
a plane gets to your
horizon line, the
closer it appears as a line. So the most important
aspect here is that
in a cube, or
on a plane
as they're moving away from you they are slightly converging.
you can apply all this without the perspective if you're
aware of that. So if you begin with
an edge and you get that line -
that line, you don't actually
need to understand where - you don't need to
observe where any of the other lines are. Because all they are -
they're practically parallel and slightly
converging away from you.
So that line is actually shorter than that one.
And the same applies to the other side.
And so this also allows you
to tilt the cube in any way you want.
So as long as you keep - as long
as you keep as - as long as you are
aware of the point that is the closest point to you.
So for example.
the plane that we have here
is going to be a larger one than the one that we have on the other
side. Or at least - and obviously in reality
they are identical but
on paper they have to appear smaller due to perspective. And so
the interesting - the only thing to keep
in mind is that if you're working on a piece of paper
and you establish a horizon line, you have a vanishing point on one end
and a vanishing point on the other end, the perspective will be drastically increased.
And our eye does not perceive -
in the way that I showed it here. So if you were to
imagine our eyes, the vanishing points would probably be actually quite - would be
off the page. So the kind of
angles that I have on the
lines that we have here would not really
be observed on a cube that you can essentially - that is as
small as the one that we have in front of us. So
the idea is that you have to keep them
practically parallel with just a minor amount of
now that we've covered that, let's learn to combine
our understanding of the cube with the cube that we actually have in front of us.
draw 10 boxes sharing the same vanishing point and horizon line
based on the approach that I demonstrated. Make some boxes
long and others short. Next draw 30 more boxes from all
different angles without the help of your perspective lines,
always keeping in mind the edge that is closest
Transcription not available.
your shoeboxes, shipping boxes, and books again. This time
you'll be combining the observational and constructive approaches.
Lay your rectangular solids on a table and begin by measuring
angles and points in the order that I demonstrated. Then
complete the drawing based on your understanding of the structure of the box.
Practice this on five different boxes or
rotate the box and draw it from different angles five times.
geometric forms. Here we have a
number of cylindrical elements. And so in this
particular case, it is possible to observe
certain elements but there's
an important aspect here that needs to be constructed.
And so I think it'll be interesting for you to see how your understanding
of a cube will allow you to structure a cylindrical element
into it. So why don't we
get started on that and I will explain a few things.
Okay. So obviously
a major element here is the ellipse.
And the interesting thing about an ellipse is that
it is not an oval. An ellipse immediately implies
And the easiest
way that I can give you an example of this
is by constructing an ellipse into
a square. So if we have a square - so an ellipse
is actually a circle in perspective. So in order
to achieve this we need to establish a
We need to cross our
diagonals to find the -
the center of our square
then establish where the
central point of each side is
to find where our circle is going to make a tangent
is going to make a
with the sides of our square. But as
you see, it's not as precise as
you might want it in order to explain what this
this is a somewhat circular form.
right now I will explain -
I will explain how to make this just slightly more
complex and get you a more accurate
circle within a square. And then we'll take that square,
put it into perspective, and construct a circle into it.
And you will see an ellipse. So
what you actually need to do - and I will have a ruler
for that purpose. So
here I will make a
let's see. This square
I'm making it 18 centimeters across or
around 7 inches.
We're good. That's there.
18 centimeters on this side.
And then here you just connect them.
I'll use the right angle here for extra
precision. The idea - it's helpful, it's precise, but it's not
fundamental. So okay, so now we have a square
Now we officially cross our diagonals.
Which allows us
to find the halfway points of our sides
Okay so this
is what we had initially. But as I said this isn't enough
because the only way that you can put a circle into this is by adhering
to the tangents on the corner -
on the halfway point of each side.
There isn't any way to find where our circle actually is
anywhere else. So what you need to do is actually
do the exact same thing you did for the whole square, however, you would
need to do it for each of these quadrants.
And now you connect them.
So now you've divided your square into 16 squares
into 16 parts. And so the next
step is you're going to take a corner and you're going to make
a line that hits the
at the point along the edge, one quadrant in across from
Like so. And then you're going to do the same
from the other corner
to the opposite side. So - and so the important part here is to
go all around in this way.
And so this looks like
but I assure you, this will give you a much
better idea of how to inscribe a circle into
the square. So now we have a number of points available. So we still have the
center point of each side, which is a tangent, but then
we also have a certain intersection. So we have the intersection of this line that we made
with one of -
with a side of the square that's closest to it.
So this is the point.
And we have the exact same thing here.
gives us a considerably larger amount of points into which
to construct a circle. Even as you follow
along, it's much easier to get the arcs that you need.
Now this is simply a circle,
a combination -
a continuous line of points equidistant from a central point.
in it and place it in perspective. So
what we're going to need for this is our horizon line
And I will take it all the way.
H if you remember. And then a
vanishing point on one side and a vanishing point
on the other. Vanishing point one, vanishing point two.
And from these two points we begin.
We simply take a line out of them into
the center of page. I'll go all the way so that we
have options. And then here
I wouldn't go all the way down to the bottom of
our page, mainly because you don't want the perspective
to look too exaggerated and for the
square that we have too open towards us. But also I wouldn't go too far to the
top, I would go somewhere in the middle of the page so we get
what looks like more or less convincing perspective.
It's still exaggerated from what our eye sees. And then
we go to the other point.
And then we lock in
Okay. So now we have
a square. I would kind of
clean off some of the other lines, especially -
and actually it works quite well because if you erase them you still have
some lines remaining to keep you
within the construct
it won't be taking your attention away from the
what we have in front of us. So, according to what we
did with our square,
with our flat square, the next thing we have to do is cross
our diagonals. Alright.
To find the center of our square.
So here we go. Okay.
Now we have it. The next thing we do is we have to find
the center points of the sides of our square. For this
we use the center of the square and our vanishing points.
So line them up, don't go
all the way, and just connect them.
We're gonna be doing the same thing with the other side.
Excellent. So now you've divided your square into
quadrants and then next - the next step that
we have is
that we need to do the same thing with each one of our
smaller squares. Because if you remember
we need to divide our square up into
So the interesting thing here is that
actually if we continue, this is also
as you see it's going into perspective.
So there's actually a smaller square inside
of our larger square.
Now just to make sure, because there are errors that
can happen, I would line up
the center of each quadrant with the vanishing point, they do
line up, and just connect them. Do the same thing. If you do everything
properly they will line up, everything is within our
perspective construct here. They line up here. Do the same
to the opposite vanishing point.
And up here.
Okay so now we've successfully
divided our square into 16 squares.
Okay so the next step is to go from
each corner, across -
the squares along the side. To be
precise, four of them, into the
this corner, like so.
And then from the other corner
to the other side of
the closest line.
Okay, that's good. Now we have to do this
everywhere. I'm going to switch to my smaller ruler, it's easier to hold
when working on this.
Alright. And now
the other way.
And now from here to here.
Alright. And the final
If you have a mechanical pencil
it helps to get a straighter line but it's not
so now we have everything that we need
to inscribe a circle within this square in perspective.
So here are our points. We have the midpoint
of the sides
and then we have the point where
one of these lines is crossing
one of the quarter lines.
So we're there. We're here,
that's a point, that's a point, that's a
point. Here this is getting a little close so you're just gonna
have to get as close as you can.
We're there, we're there, and then
we're here. And so this is enough
to work an ellipse into this.
now just take your time, you have enough
points along the way to guide you.
We take from the top,
round it off.
Let's see where we are right there.
Inscribing the ellipse actually might take a little bit
of practice. Okay. So
then make certain corrections, a couple of them if you need to.
And so now we have
a constructed ellipse within
a square. So - and what -
obviously I'm not asking you to go through
this entire operation every time you see an
ellipse in front of you. However, it's helpful
because it can give you an idea of
an ellipse so that you can - the point of which is to
recall it as much as possible in your head so when you're
simply making it by hand, you have
an idea of where corrections need to be made.
So the interesting thing that's happening here is that
it's very clear where an ellipse is
not an oval. So an oval
if you cut an oval
or rather you can cut an oval
into equal parts. The top is the same
as the bottom, the side is the same as the opposite
side. Now in an ellipse it's important
to keep in mind that you can't cut the ellipse in half and have them be equal.
The side that is closer to you is
actually going to be a bit larger, but it's
also going to be - it's going to be rounded off
a bit more and the top side
is going to be smaller and flatter. Now obviously
this applies to everything below your horizon line.
Everything above your horizon line will be all of this but inverted.
them by hand. So
the idea is not to get a perfect ellipse straightaway
and there are a few ways that you can approach this.So
on a clean sheet of -
a clean sheet of paper you're going to -
you're going to make an ellipse. And then you're going to
look at it and ask yourself a few questions. So
the first one is if you cut this
ellipse in half,
is the part that's underneath larger than the part
that's on top? And I'm not so sure
in my case. So I'm going to slightly
move down the top
and slightly enlarge the bottom.
And so the question
that follows is - or that's sort of asked simultaneously - is
bottom side of the ellipse, the closer side, is it
larger than the top?
And so at that point you're going to make certain
corrections. Now the interesting this is that of course
when you're working
on anything, you actually could probably get away with
an oval. But I feel like this is helpful to understand.
So I would
just keep practicing these.
In some cases you analyze them, in other cases you just move on.
there is a tendency at times to get
the ellipse by just moving around the ellipse and
it sort of, it cleans up the edges. But I tend to think
that a smaller amount of lines is always
preferable to a large amount of lines. So be as clean as possible.
If you need to do a few of course you
can and even if you need to do a lot of course you can.
So I'm going to go back onto that one
and smooth it out a little bit - which is also
a way to approach these. After you've analyzed it,
after you have understood what's off about it, then you
can go over it
a few times. But the point is to begin to,
not so much to put a proper ellipse on paper, but to understand when an ellipse is wrong.
And so you can practice
a few that are open to a certain
degree, then you can practice a few others that are actually
closer to your
horizon. You can practice them in all different kinds of directions
and these had to be the easiest ones.
And then you can attempt ellipses that are more open
that are coming closer to just being
a circle. And so I
highly recommend that
you put as many on paper
as you need in order to get comfortable with it.
and inscribe a circle in it the way that I showed you, by dividing that square
into 16 equal parts and plotting the necessary points.
Then do the same with a square plane in
perspective. Five with and five without a horizon line
and vanishing point. Then move on to dividing the
square using only four equal parts. This time, build
your ellipses based on the four midpoints of each side of the square.
Do 20 of these. For the second part of this assignment
you're going to fill four big sketchbook pages with
freehand ellipses. Try shallower and deeper ellipses at different
cylinder. So what I'm interested
in finding out before we even begin
is what the proportions are here. So I'm
interested in seeing the amount of times the width of it will fit
into its height. All the way from
the bottom point here to the end,
most point that I can see at the other end of the ellipse.
all we need to do, as we've practiced, is to align the point of our
needle, or your pencil, with one side of the
cylinder, your hand locks in the other. And then
move your needle and place it vertically
so that your hand is now at the very bottom
and then move it up
and the proportions, as I seem to get
all this relatively simple proportions,
is that the width of
the cylinder fits into its full height one and a half
all you need to do is to establish
width and then
move it up a single time and then you
can find the halfway point on that line.
Move it up and move it up again. Okay.
So now we have a two
dimensional, rectangular shape that
will establish the entirety of the proportions of our
next order of business
is to take the proportions of the full ellipse and see how many
times the ellipse, in terms of
the height of the ellipse, will fit into our -
the rest of the cylinder.
So line it up so that the point
of the needle is at the farther part of the cylinder and your hand is at the
closest part of the rim.
Then move it down at one - it seems like a lot from this angle - two
five, six, and almost exactly -
actually it's exactly seven times. So
in total eight.
In my case, eight is fairly easy.
So if you find the half way point - you can either approximate it or, as we
know, you can find the halfway point by crossing your
diagonals and then we can find this again
so this is now divided into quarters. And now to find the eighth
you can divide the final top quarter into -
into an eighth. So this
essentially is all that we require in terms
of observing what our cylinder is. So
it also gives us an area into
which we can - we can place
So into here. So - before
we begin, we have to find the center
line. And I will be talking about the center line a lot during
the entirety of the course, all the way to the end, because it's possibly
one of the most important - most important
elements of the
constructive analysis. And so
in our case it functions as a center line
in order - it functions as a vertical axis,
as well as a way to keep the left side symmetrical
to the right. And so and here
we can just begin to
place the ellipse. Now if you were really interested in
a proper construction, you can
establish what the perspective is on top, make it into a square
in perspective and place the
entire ellipse according to the -
what essentially is
the formula that I explained in the previous -
in the previous assignments.
And so this is what we have
so far. You can cut it
in half horizontally and make the
corrections according to what we discussed so that the
upper part, the one farther away is a little flatter.
You don't actually need to look at what's in front of you any more.
This is all entirely -
this is all now entirely
from your imagination. Or from your understanding rather.
Which is possibly the same thing. So
before we connect anything, what we need
to put in this area is
the other ellipse. The ellipse that is holding
everything up. The base of it,
of this entire structure. So what we need to do for that since we
can't actually - we can't actually
see what's happening, you have to imagine
what's going on and put it on paper as though the cylinder
is made of glass.
And so the only thing to think about is that because our horizon
is higher that necessarily,
will mean that the
top cylinder will be not as
open as the one underneath it. Because if you recall, as
a plane comes closer to our horizon
line, it flattens and flattens and flattens out until it eventually becomes practically a line.
And so here
you can even
take its height, find it here, and enlarge it slightly.
where it is, all the way
into it. And at that point what you need to do is connect
the two cylinders, we find the sides
you have it.
its side. Before
we begin, I recommend taking a pencil
and placing it right up against
the ellipse that you see, the top of the cylinder, its opening.
And what this establishes is it gives us
plane that is perpendicular
central axis of our cylinder
on top of the - on top of our
pedestal here. So the angles
that you need to take right away are
the edge, the
bottom edge and the line of
the - line of
the pencil. So
let's give this a go.
You establish - keep the vertical constant, align the edge
and there you have it.
There you have that line.
And now I'm going
to get the line that is
given to me by the pencil.
Make sure it's correct, it's a little straighter
and a little lower.
in essence that's kind of all you need. At this point
you can actually remove the pencil in order
to see the entirety of the cylinder. So
what we need to establish at
the point that we have here is now we need to -
we need to
construct a square
for the opening, for the top of our cylinder.
And you are going to be putting all of the techniques
that you've learned into use here. So
here we have a line on top
that's slightly converging with the line on
Here we're going to cross our diagonals.
yeah so we're going to cross our
diagonals and then we're going to
establish the tangents that we have
with the ellipse.
And then we're going to place the ellipse. Now I'm not -
now if you want you
can do the entirety of the construction that I explained
earlier or you
can kind of eyeball it.
there you have it. So what you're interested in
putting in now is actually you might need to take
another angle. The angle that I
would take would be the outermost points of the ellipse. So where the side
of the cylinder is coming into contact
with the ellipse. So that entirety of it -
the angle of its -
essentially the angle of the -
the angle of the ellipse. And it's not so much that you are
trying to establish this line but you're actually
kind of correcting what you have.
And the key is
to see if the outermost points that you
placed are correct.
And once you have this
line you can make some slight corrections.
For example, making the part of the ellipse that's
a little - that's away from you slightly flatter.
and rounding off the part that is -
closer to you.
Okay so once you have
the points here - so the angle
that comes after this is the angle of the side
of the cylinder.
You take it and you transfer it.
you find it on the other side. All you do is get it to be
parallel and slightly converging.
And now it's important to establish
where our - what the proportions are. So
the question that you're asking is
the - so along our -
along our central axis
how many times does the
ellipse fit into the
cylinder as a whole? So you're going to
lock in one side with your hand, put the point of the needle up to
the closest part of the
ellipse and move that up -
move it up. And I get one and half times.
So from here that is
a single time, cut that
in half and add it on.
And so you're almost -
you almost have it. The only thing you have to recall is that the
ellipse at the farther end is more
open. And you can -
if you want to explain it,
then it's - if you were to
construct a square here
make sure these lines are parallel but then slightly converging.
The square that's
in the back is slightly more open than the one
in front of you.
And so - but you already have everything
that you need. You have
the point that is a tangent
to our square, you can take that all the way.
Ah well, you can take that
all the way, that would actually
be along that line. And
one of the provided photos or find a cylindrical form in your house.
A can of soup, a simple mug, or even a roll of toilet paper.
Stand the cylinder upright and measure its width
to height proportional relationship. Then
inscribe the cylinder into a rectangular solid based on those proportions.
Do ten of these. If you feel like you
want an added challenge, try constructing each ellipse using the
sixteen square approach. Next,
practice drawing cylinders with free hand ellipses. Make
sure to pay particular attention to the tilt and shallowness of the
ellipse. Try to determine how close the cylinder is to your
horizon line. Finally, lay the cylinder on its side
and repeat the entire assignment.
a little bit about cylindrical forms
and ellipses, you can start
applying this entirely from imagination.
all you need to do to construct a cylinder from imagination
by constructing a box. A cube
or a rectangular prism.
The important thing is to have -
to think of it as if it were
since we already know how to construct an ellipse, all we need to do
is establish where the
each of these sides is
them - use them
to insert our axis.
And once all that's in place,
you can begin to place your ellipse,.
Now keep in mind the ellipse does not need to be perfect.
It just needs to be approximate enough so that you are able
to make the corrections that you need.
The important thing here is to get the ellipse at the front
then - as well as in the back -
and then once it's in
place you can make sure to make a line
that tells you the
parts of the ellipse that you're actually able to
see with your eye, or you would have been to see them with your eye if
you were working from
observation. Okay so after having
practiced a few of these, it's time to attempt a few
that are at angles that are a bit harder to observe.
It's possible but it would require
it would require you to hang
an ellipse or to prop it up in ways that aren't particularly
I go and I'm constructing a rectangular
prism. In this case,
the side that I have here is actually not a square, it's a rectangle.
So - but the principle applies. So this is not
even a proper ellipse any more, however it is -
all of the same rules apply to
its construction. Alright
there we have it. And then begin -
then begin to place your
And connect them at their outer most points.
open up the top of the
you could not open up the ellipses much and keep it a bit
and keep it smaller and keep it more
compressed. And you can even
start by constructing an ellipse and
then structuring a
a cylindrical form out of it - and see here I don't
even complete it.
that we've practiced that, let's talk a little bit about
forms that we haven't actually
what if we think about a cone?
Ask yourself about the construction of it. What is a cone?
So why don't we begin
square again, in perspective. And
once again we will
cross our diagonals to find the center of the square.
We will - and then we will cut the square
quadrants. Okay. It's
at that point it's time to place our ellipse.
up until the point here
we're quite comfortable. But the step after this
is also a simple one. So
extend your axis
up, establish a point
anywhere along this axis and then just connect it to the outer edges
of your ellipse. So
it could be here, it could be
here. And that is the construction of a cone.
it is a little bit harder to tilt a cone.
Mainly because the angle
of - the angle of the -
so if we have
a cone here and a
cylinder here, it is easier to
establish the angle of the ellipse to the side of the cylinder
because it is always at a right angle. Here however
we run into a few problems.
So the vertical axis is going to be
important here. So begin,
if you're going to be tilting,
begin with the angle
of the ellipse.
your vertical axis and then
connect the outer edges of the ellipse
to a point along that axis.
that's all for a cone.
So the interesting thing about a cone is that
you can also
cut a cone at any point
using your understanding of an ellipse. So
if we establish a cone -
and here I'm working the other way a little bit
that's also a possibility
once you get a bit more comfortable with this.
At that point you can
you can construct -
a square at any point of the cone.
And do the exact -
with the procedure. And now you have a cone that is
the final thing that I'm going to talk about
is that you not only are
able to truncate a cone
with an ellipse that is at the same angle as the base of the
cone, but you can essentially cut it at any angle.
So why don't we give that a shot.
begin with the base of our cone,
Here we have our ellipse.
Move your vertical axis up, make the connection.
But then here -
there we go -
but then here
why don't we truncate the cone
at that angle.
And then, once you establish the
rectangle at the proper angle that you need, the same
And there it is.
would practice this as much as possible because
we're going to be using our understanding of
structures when we're analyzing organic
objects from observation.
cones in various positions without reference,
only using your understanding of their form.
For an added bonus, try truncating the cones and
Free to try
1. The Box from Observation Overview1m 12sNow playing...
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2. The Box from Observation Instructor Demonstration16m 20s
3. The Box from Observation Assignment Instructions36s
4. Constructing the Box Instructor Demonstration9m 7s
5. Constructing the Box Assignment Instructions31s
6. Constructing the Box from Observation Instructor Demonstration17m 1s
7. Constructing the Box From Observation Assignment Instructions37s
8. How to Draw Ellipses Instructor Demonstration9m 38s
9. Placing Ellipses in Perspective10m 52s
10. Drawing Free-hand Ellipses3m 45s
11. Drawing Ellipses Assignment Instructions55s
12. Drawing the Cylinder from Observation Instructor Demonstration8m 42s
13. Constructing the Cylinder from Observation Instructor Demonstration10m 0s
14. Drawing the Cylinder from Life Assignment Instructions1m 0s
15. Constructing the Cylinder from Imagination Instructor Demo4m 35s
16. The Cone and Truncated Cone Instructor Demonstration7m 8s
17. The Cone and Truncated Cone Assignment Instructions22s