Synopsis of the lesson “Rainbow at home. Photo report watching a rainbow in nature and at home Is it possible to make a rainbow at home

TOthen came from a good fairy tale,
and played a little naughty?
Who mixed colors in the sky
and shed it on a rainbow?
And now she's colored
Smiling from the sky
Calling out the passers-by
Very strong interest!

Since childhood, each of us has been fascinated by such a wonderful natural phenomenon as a rainbow. Where does it come from? Can I make it at home? To answer these and other questions, we conducted a study, the goal of which was to make a rainbow at home.

Tasks, which we have set for ourselves:
Find out what a rainbow is, how it appears.
Learn about the myths and legends associated with the rainbow.
Make a rainbow at home using scrap materials.

We assumed that a rainbow can be made at home and even without the use of water.

In the course of the study, we analyzed the literature and Internet sources on the topic, used our observations, and conducted a number of experiments.

Myths and legends about the rainbow
The rainbow is one of the most beautiful natural phenomena. The multicolored arc appearing in the sky after a rain on a sunny day attracts the attention of not only children, but also adults. The rainbow can be seen in the paintings of great artists. The rainbow is mentioned in poetry, fairy tales. Many myths are associated with the appearance of the rainbow in the sky.
The ancient Greeks believed that the messenger of the gods Irida descended from heaven to earth to people along the rainbow. Irida was presented as a charming girl - beautiful and light, with two majestic rainbow wings on her back. Spreading her wings wide, she is at any moment ready to jump off the spot and with the speed of a swallow will swiftly rush in the sky, and the road along which she runs is a rainbow. Iris carried out the orders of Zeus and Hera and was considered a mediator between gods and people.
The ancient Chinese thought that the rainbow was a heavenly dragon, which meant the union of Heaven with Earth.
In Slavic myths and legends, the rainbow was considered a magical heavenly bridge thrown from heaven to earth, the road along which angels descend from heaven to collect water from rivers. They pour this water into the clouds, and from there it pours down a life-giving rain.
However, not everyone believed that the appearance of a rainbow was good. For some peoples, the rainbow was considered a bad sign. The appearance of the rainbow signified someone's imminent demise. Through the rainbow, the souls of dead people pass into the realm of the dead.

Folk omens

• A low and gentle rainbow means bad weather, and a high and steep one means a clear day.
• If the red color predominates in the rainbow spectrum, then you need to wait for a strong wind.
• A low rainbow, the edges of which abut against water bodies, portends bad weather.
• Bright rainbow - wait for bad weather.
• If there is more green color - it will rain, yellow - good weather, red - wind and drought.
• A morning rainbow promises a cloudy day, and an evening rainbow promises a fine one. A rainbow in winter is rare and signals impending frost or snow.
• If a colored arc appeared in the east, then wait for good weather, if in the west - then rain.
• Rainbow along the river to heavy rain, and across - to clear weather.
• The rainbow is visible for a long time - there will be bad weather for several days.
• If a rainbow appeared in the direction from which the wind is blowing, it will be a rainy day, if in the opposite direction, then it will be clear.
• The rainbow is located from south to north - waiting for the pouring rain, from west to east - the sun.
• The rainbow appearance on Saturday promises a rainy next week.

How does a rainbow appear and why is it multicolored?
The rainbow appears as a result of the interaction of light and water. When it rains, a huge amount of water droplets soar in the air. Each droplet acts as a tiny prism. The sun's rays, passing through raindrops, are refracted and split into a spectrum that we call a rainbow.
It is customary to distinguish seven colors in a rainbow: red, orange, yellow, green, light blue, blue and purple.
These colors in the rainbow were first proposed by the great English scientist Isaac Newton. At first he selected 5 colors, but then he thought and decided that there will be 7 colors, like 7 notes. In fact, the color spectrum is continuous, its colors smoothly transition into each other through many shades.
It is possible to prove that the colors of the spectrum add up and form white light using an ordinary computer disk, on which strips of red, orange, yellow, green, blue, blue, purple paper are glued in a circle (in sectors), insert a pencil into the hole of the disk and spin the disk. As the rotation speed increases, the disc begins to appear white, or rather, grayish-white.
The brightness of the shades and the width of the rainbow depend on the size of the raindrops. The larger the drops, the narrower and brighter the rainbow, there is more red saturated color in it. If there is a light rain, then the rainbow is wide, but with faded orange and yellow edges.

Did you know that there is a rainbow without rain?
Indeed, a rainbow can be seen near lakes, waterfalls, large rivers, where the sun's rays are reflected from the water surface. A rainbow can also be seen on a sunny, clear day near fountains, as well as when watering flowers in the garden with a hose (if you pinch the hole in the hose with your fingers, creating a water mist and directing the hose towards the sun).

Practical part (experiments)
The rainbow is a miracle of nature. Is it possible to create this miracle yourself, at home? I decided to try it and did some experiments. To make the rainbow bright, I conducted all the experiments in a dark room, using only the light from a table lamp. That's what I did.

Experiment # 1
During the experiment, I used: a glass prism, a modeling board, a piece of plasticine, a table lamp. Using plasticine, I attached the prism to the sculpting board, directed a beam of light from the table lamp onto the prism.
Slightly changing the angle of inclination of the board, on a white wall opposite to the ray of light, I saw just such a rainbow.

Experiment # 2
I used: a rectangular tray, plain water, a mirror, a table lamp. I poured some water into the tray, lowered the mirror into it at a slight tilt. The beam of light from the lamp was directed to the part of the mirror submerged in the water.
By adjusting the tilt of the mirror, I got such a rainbow on the ceiling.

Experiment # 3
I used: computer disk, desk lamp. On the computer disk, I sent a beam of light from a table lamp and reflected this beam on the ceiling, which turned out to be such a beautiful rainbow!

Experiment # 4
I used: a tray, a large plastic bubble ring, soapy water. I dipped the plastic ring into a tray with soapy water, then carefully took it out - a film formed inside the ring. Turning the ring towards the light, I saw such rainbow stripes on the film.

Experiment 5
I poured some water into a clear glass glass and set it on the table. Looking at the glass of water from the side (the glass should be at face level), I saw a barely noticeable rainbow above the water surface. I decided to send a beam of light from a flashlight to the glass of water, the rainbow became clearer and brighter.

Experiments have shown that it is very easy to make a rainbow yourself at home, using a ray of light from an ordinary table lamp or flashlight instead of sunlight.
In the course of research and experimentation, I decided to try to make a "rainbow box" out of computer disks, which could be used to decorate rooms when holding house parties or classroom discos. My dad helped me make the rainbow box. We found several old computer disks at home and carefully pasted them over a small cardboard box on all sides. A hole was made in one of the corners, through which a ribbon was pulled and the "Rainbow Box" was hung from the ceiling.

By shining a beam of flashlight on the box, we got a wonderful rainbow lighting in the room, which delighted all my friends and helped to make my house party more fun and modern!

Antipenko Sergey

Purpose of the study: to determine what is the relationship between rain, sun and the appearance of a rainbow, and whether it is possible to get a rainbow at home.

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RESEARCH WORK "HOW TO CREATE R A D U G U IN HOME CONDITIONS?"

Objective of the study: to determine what is the relationship between rain, sun and the appearance of a rainbow, whether it is possible to get a rainbow at home. Object of research: natural phenomenon R A D U G A. Subject of research: the origin of the rainbow. Research problem: how to create a rainbow at home; how a rainbow appears and why it is multicolored; how to create white from colored components.

RESEARCH OBJECTIVES How does a line appear? When does a rainbow appear? Can you get a rainbow at home? How to get white from colored components?

HYPOTHESES Suppose that a row appears in sunny weather during rain, when the sun's rays pass through the raindrops. Suppose you can get a rainbow by replacing the sun's rays with an artificial light source.

BASIC METHODS Literature study. Observation. Experiment.

"Every hunter wants to know where the pheasant is sitting." "How once Jean the bell ringer knocked down a lantern with his head."

Every schoolchild can repeat Newton's experience. I repeated this experience, but with an artificial light source. We observed the decomposition of light into a spectrum as it passes through a prism at home, using a prism and a projector. To do this, we “caught” a white ray with a prism and got an image of a rainbow on the wall. The light that seemed white played on the wall with all the colors of the rainbow. This is how we penetrated into the mystery of the ray, into which the famous English scientist penetrated more than 300 years ago.

HOW DOES R A D U G A APPEAR? When it rains, there is a huge amount of water droplets in the air. Each droplet plays the role of a tiny prism, and since there are a lot of them, a rainbow is obtained in half the sky. That's who it turns out to be building a multi-colored gate in the sky quickly and beautifully! Sun ray and raindrops. All rainbows are sunlight that passes through raindrops like prisms, refracts and reflects on the opposite side of the sky.

WHEN DOES R A D U G A APPEAR? Radiation appears only when the sun peeped out from behind the clouds and only in the side opposite to the sun. Radiation occurs when the sun illuminates the curtain of rain. R a d u g y can be observed only in the early morning or late afternoon.

IS THERE A R A D U G A WITHOUT RAIN? Such a miracle also happens.

EXPERIENCE “CREATING RADUG AND IN HOME CONDITIONS” To make sure that the white color consists of seven colors and the rainbow can be obtained artificially, we conducted an experiment. We needed: a flashlight, a water tank, a flat mirror, white cardboard and water. Experiment: The tray was filled with water. A tilted mirror was placed. We directed the light of the flashlight to the part of the mirror submerged in the water. To catch the reflected (or refracted) rays, the cardboard was placed in front of the mirror.

AS A RESULT ON THE CARDBOARD ARE THE REFLECTION OF ALL THE COLORS OF THE RAINBOW, WE COULD GET R A D U G U IN THE "HOME" CONDITIONS. Conclusion: the beam of light reflected by the mirror at the exit from the water is refracted. The colors that make up white have different angles of refraction, so they fall at different points and become visible.

EXPERIENCE "HOW TO OBTAIN WHITE COLOR FROM COLORED COMPONENTS?" In the same way as we have decomposed the white color into components, you can get back the white color from the colored components. If, on one side of the prism, we place seven colored light sources at the appropriate angles, we get a ray of white at the exit from it.

It is difficult to do such an experiment on your own, but there is another way. If you take a white circle and paint it in seven colors of the rainbow, and then plant this circle on an axis. And start rotating it quickly, place the colored circle, we will see white. This is due to the inertia of human vision. The eye cannot see each color separately on a rapidly rotating circle, and for him they all merge into one white color.

REFERENCE As a result of the work done, we were convinced that the prism is able to transform a white ray into a seven-color, rainbow one. They found out that raindrops and ice crystals can divide the white color into seven colors, so you can observe the row in autumn, summer, spring and winter. But there are conditions under which such an amazing natural phenomenon can be seen. We got acquainted with the methods of obtaining a row and at home, the creation of white from colored components.

REFERENCES 1. Belkin IK What is a rainbow? - "Quant" 1984 2. Bulat V.L. Optical phenomena in nature. M .: Education, 1974. 3.Geguzin Ya. E. "Who makes the rainbow?" - Quantum 1988 4.Mayer V.V., Mayer R.V. "Artificial rainbow" - Quant 1988. 5. "I know the world." Children's encyclopedia. Physics O.G. Hinn - M, LLC 6. Bragin A. About everything in the world. Series: Great Children's Encyclopedia. Publisher: Ast, 2007. 7. Children's encyclopedia "I KNOW THE WORLD". AST - LTD "1998

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Hello! I, Sergei Antipenko, student of 1 "b" class of school №19

G. Izobilny. And this is my supervisor, Marina Nikolaevna Meshalkina.

Let me present my research paper "How to create a rainbow at home?"

Every person at least once in his life admired a natural miracle - a rainbow. Many have probably noticed that the rainbow, as a rule, appears after rain. I have seen a rainbow many times, and this phenomenon has always delighted me. Last summer, my parents and I walked around the city. The weather was sunny, but suddenly it started to rain: warm, fine drizzling. It stopped as quickly as it began, and literally immediately we all saw a rainbow in the sky. I wanted to know what a rainbow is and how it appears.

Purpose of the study: to determine what is the relationship between rain, sun and the appearance of a rainbow, and whether it is possible to get a rainbow at home.

The object of research is the natural phenomenon of the rainbow.

The subject of research is the origin of the rainbow.

Research problem:

1. how to create a rainbow at home;
2. how a rainbow appears and why it is multicolored;
3. how to create white from colored components.

Research objectives:

1. How does a rainbow appear?
2. When does a rainbow appear?
3. Can you get a rainbow at home?
4. How to get white from colored components?

The hypotheses put forward:

1. Suppose a rainbow appears in sunny weather during rain, when the sun's rays pass through the raindrops.
2. Suppose you can get a rainbow by replacing the sun's rays with an artificial light source.

Basic methods: study of literature, observation, experiment.

There is probably no person who does not admire the rainbow. This magnificent colorful phenomenon in the sky has attracted everyone's attention for a long time.We all know from childhood the saying “Every hunter wants to know where the pheasant is sitting”, there is also a less popular version “How once Jean the bell ringer knocked down a lantern with his head”. By the initial letters of these sayings, we memorize the names and sequence of colors of such an unusual and beautiful natural phenomenon as a rainbow.

Why does such a beautiful, and even colored picture appear in the air? We looked for the answer to this question in additional literature. Here's what we learned.

Sunlight, or an ordinary ray of white light, is actually a combination of all colors. When a ray of light moves through the air, almost nothing happens to it, but if a transparent substance that is noticeably different in density from air comes across in its path, interesting things begin to happen to the light. When light hits the boundary of such a substance, it deflects, but the most important thing is that each of its components deflects in different ways.

Isaac Newton proved that ordinary white is a mixture of rays of different colors. "I darkened my room," he wrote, "and made a very small hole in the shutter to let in sunlight." On the path of the sunbeam, the scientist placed a special triangular glass - a prism. On the opposite wall, he saw a multi-colored strip - a spectrum. Newton explained this by the fact that the prism decomposed white into its constituent colors. Newton was the first to guess that the sunbeam is multi-colored.

Every schoolchild can repeat Newton's experience. I repeated this experience, but with an artificial light source. We observed the decomposition of light into a spectrum as it passes through a prism at home, using a prism and a projector.

To do this, we “caught” a white ray with a prism and got an image of a rainbow on the wall. The light, which seemed white, played on the wall with all the colors of the rainbow (these multi-colored, bright stripes are called the solar spectrum). This is how we penetrated into the mystery of the ray, into which the famous English scientist penetrated 300 years ago.

We looked through the prism of white objects, they looked colored, rainbow. The rainbow is the most famous spectrum known to all.

So, for a rainbow to appear, a sunbeam needs to fly through a prism? But there are no prisms in the sky! How, then, does the rainbow appear?

2.2. How the rainbow appears

There is nothing strange here. A rainbow is simple, it is the sun's rays refracted in raindrops. When it rains, there is a huge amount of water droplets in the air. Each droplet plays the role of a tiny prism, and since there are a lot of them, a rainbow is obtained in half the sky. That's who it turns out to be building a multi-colored gate in the sky quickly and beautifully! Sun ray and raindrops. All rainbows are sunlight that passes through raindrops like prisms, refracts and reflects on the opposite side of the sky. The outer edge of the arch is usually red and the inner edge is purple. Seven colors are distinguished in the solar spectrum: red, orange, yellow, green, light blue, blue and violet.

Conclusion: a rainbow appears in sunny weather during rain, when the sun's rays pass through raindrops.

2.3. When the rainbow appears

Then the question arises: why do we not always see a rainbow when it rains in the sun?

1. A rainbow appears only when the sun peeped out from behind the clouds and only in the side opposite to the sun.
2. A rainbow occurs when the sun illuminates a curtain of rain.

You need to be strictly between the sun (it should be behind) and the rain (it should be in front of you). Otherwise, you will not see the rainbow! The sun, our eyes and the center of the rainbow must be in line! If the sun is high in the sky, then such a straight line cannot be drawn. That is why the rainbow can only be observed in the early morning or late afternoon. A rainbow appears provided that the angular height of the sun above the horizon does not exceed 42 degrees.

Is there a rainbow without rain?

It turns out that such a miracle also happens. In winter, ice crystals "float" in the air. They, too, can divide white into seven colors of the rainbow, so the rainbow can be seen even in winter. Air, although it seems completely transparent, in fact also decomposes light into its constituent colors. It is noticeable - it happens at sunrise or sunset. Passing through the thickness of the earth's atmosphere, its rays deflect a little, and as we remember, the red color deflects weaker than the others. It is for this reason that the sun, being near the horizon, acquires a red hue. Rays of a different color deflect more strongly, and yes, they no longer reach us.

Experience "Making a rainbow at home"

To make sure that the white color consists of seven colors and the rainbow can be obtained artificially, we carried out experience.

We needed a flashlight, a water tank, a flat mirror, white cardboard, and water. Experience progress:

1. Fill the tray with water
2. We put a mirror with a tilt.
3. We directed the light of the flashlight to the part of the mirror submerged in the water.
4. To catch the reflected (or refracted) rays, the cardboard was placed in front of the mirror.

As a result, a reflection of all the colors of the rainbow appeared on the cardboard, and we were able to get a rainbow at home.

Conclusion: the beam of light reflected by the mirror at the exit from the water is refracted. The colors that make up white have different angles of refraction, so they fall at different points and become visible.

Experience "How to get white from colored components?"

In the same way as we have decomposed the white color into components, you can get back the white color from the colored components. If, on one side of the prism, we place seven colored light sources at the appropriate angles, we get a ray of white at the exit from it.

It is difficult to do such an experiment on your own, but there is another way. If you take a white circle and paint it in seven colors of the rainbow, and then plant this circle on an axis. And start rotating it quickly, place the colored circle, we will see white. This is due to the inertia of human vision. The eye cannot see each color separately on a rapidly rotating circle, and for him they all merge into one white color.

4. CONCLUSION

As a result of the work done, we convinced that the prism can turn a white ray into a seven-color, rainbow one. Found out that raindrops and ice crystals can divide the white color into seven colors, so you can observe the rainbow in autumn and summer, and in spring and winter. But there are conditions under which such an amazing natural phenomenon can be seen. We met with methods of obtaining a rainbow at home, creating white from colored components.

In conclusion, I would like to thank my scientific advisor, Meshalkina Marina Nikolaevna, for her help in the course of my work.

Thank you for your attention!

The rainbow hung with a multi-colored yoke,
Dipping one end into the green ocean ...
M.Rysakov

Every person at least once in his life admired a natural miracle - a rainbow.

Many have probably noticed that the rainbow, as a rule, appears after rain.

I have seen a rainbow many times, and this phenomenon has always delighted me. Last summer, my parents and I walked around the city. The weather was sunny, but suddenly it started to rain: warm, fine drizzling. It stopped as quickly as it began, and literally immediately we all saw a rainbow in the sky.

I wanted to know what a rainbow is and how it appears.

Purpose of the study: determine what is the connection between rain, sun and the appearance of a rainbow, and whether it is possible to get a rainbow at home.

Object of study- a natural phenomenon rainbow.

Subject of study- the origin of the rainbow.

Research objectives - find answers to the following questions:

1. How does a rainbow appear?
2. Does the rainbow only appear on sunny days or can it be seen at night?
3. Can you get a rainbow at home?

The hypotheses put forward:

1. Suppose a rainbow appears only on a sunny day after it rains.
2. Suppose it is impossible to see a rainbow in nature at night.
3. Suppose you can get a rainbow by replacing the sun's rays with an artificial light source.

Basic methods: study of literature, observation, experiment.

On a gloomy autumn day, you just want to please yourself with something bright and unusual. You will be surprised, but sometimes colored paper can work wonders if you approach it creatively. So, let's begin. For a rainbow, you will need seven colors of paper, scissors, cotton wool (it will make two pretty clouds), a stapler, glue, silver beads and thread or fishing line.

First you need to cut seven strips of the same width, but slightly different in length (approximately 6-7 mm).

We fasten the strips with a stapler on one side.

Then we align the edges on the other side and get a rainbow blank.

Now you need to make the clouds out of cotton wool. The secret is to lightly wet your fingers with water and form two clouds that stick to the ends of the rainbow.

Now it's the droplets' turn. We will cut them out of blue paper as shown in the photo. We need three droplets.

At the bottom of the thread we fix a silver bead. We glue the three cut out droplets together, not forgetting to glue the thread along the middle.

That's it, our rainbow is ready. You can give it to someone, or you can simply hang it to the chandelier or on the window and rejoice.

Also, I can throw in a few more ideas for a rosy mood.

Everyone likes the rainbow - both children and adults. Its colorful overflows attract the eye, but its value is not limited to aesthetics alone: ​​it is also a great way to interest a child in science and turn the knowledge of the world into an exciting game! To do this, we suggest that parents conduct several experiments with their children and get a real rainbow right at home.

In the footsteps of Newton

In 1672, Isaac Newton proved that ordinary white is a mixture of rays of different colors. "I darkened my room," he wrote, "and made a very small hole in the shutter to let in sunlight." On the path of the sunbeam, the scientist placed a special triangular glass - a prism. On the opposite wall, he saw a multi-colored strip, which he later called the spectrum. Newton explained this by the fact that the prism decomposed white light into its constituent colors. Then he placed another prism in the path of the multi-colored beam. With this, the scientist re-collected all the colors into one ordinary sunbeam.

To repeat the experience of a scientist, a prism is not necessary - you can use what is at hand. Weather permitting, place a glass of water on a table near a window on the sunny side of the room. Place a sheet of plain paper on the floor near the window so that the sun's rays fall on it. Dampen the window with hot water. Then change the position of the glass and sheet of paper until a small rainbow plays on the paper.

A rainbow from the looking glass

The experiment can also be carried out both in sunny and cloudy weather. It requires a shallow bowl of water, a small mirror, a flashlight (if there is no sun outside the window) and a sheet of white paper. Submerge the mirror in water, and place the bowl itself so that the sun's rays fall on it (or direct the beam of a flashlight to the mirror). Change the angle of inclination of objects if necessary. In the water, the light should be refracted and broken into colors, so that with a sheet of white paper it will be possible to "catch" a small rainbow.

Chemical rainbow

Everyone knows that soap bubbles are rainbow colored. The thickness of the walls of the soap bubble changes inhomogeneously, constantly moving, so its color is constantly changing. For example, at a thickness of 230 nm, the bubble turns orange, at 200 nm it turns green, and at 170 nm it turns blue. When, due to the evaporation of water, the wall thickness of the soap bubble becomes less than the wavelength of visible light, the bubble stops shimmering with the colors of the rainbow and becomes almost invisible before bursting - this happens when the wall thickness is about 20-30 nm.

The same thing happens with gasoline. This substance does not mix with water, therefore, being in a puddle on the road, it spreads over its surface and forms the thinnest film that creates beautiful iridescent stains. We owe this miracle to the so-called interference - or, more simply, the effect of light refraction.

Music rainbow

Interference causes iridescent overflows on the surface of CDs. This, by the way, is one of the easiest ways to "get" a rainbow at home. In the absence of the sun, both a table lamp and a flashlight will do, but in this case the rainbow is less bright. By simply changing the angle of the CD, you can get a rainbow stripe, a circular rainbow, and restless rainbow bunnies on a wall or any other surface.

Besides, what is not a reason to teach a child the basics of musical literacy? Indeed, initially Newton distinguished only five colors in the rainbow (red, yellow, green, blue and purple), but then he added two more - orange and purple. Thus, the scientist wanted to create a correspondence between the number of colors in the spectrum and the number of notes of the musical scale.

Projector night light

If a temporary solution is not enough for you, you can make a rainbow at home "completely" - for example, with the help of such a miniature projector. It projects a rainbow onto the walls and ceiling - even at night, even on a cloudy day, when invigorating colors are so lacking ... The projector can operate in two modes: all colors together, or each one separately. On the eve of the New Year holidays, this is perhaps a good idea for a gift for a child or just a creative person.

Window suspension

Another version of the "rainbow without worries" (which, however, can only be enjoyed during daylight hours, and only in sunny weather) is the so-called rainbow disc, made using modern laser technologies. A glass prism measuring 10 centimeters in diameter is enclosed in a chrome plastic case. It is attached to the window with a suction cup and, transforming sunlight, projects it onto the walls, floor and ceiling of the room. There are 48 color lines in total: red, orange, yellow, green, blue, indigo, purple and all shades in between.

Flip book with 3D effect

In the last few years, books have begun to appear with interesting and unusual effects - for example, "flip-books" with running pictures. Many of us are familiar with this technology from our own childhood: we drew pictures on the margins of a notebook, and then revived them, quickly flipping through the pages. A book based on this fun was created by Japanese designer Masashi Kawamura. If you quickly flip through it, you can see a volumetric rainbow!

If you wish, you can make a similar hand-made rainbow with your own hands, and at the same time visually demonstrate the animation effect to the child. To do this, you need to print on paper or draw squares of rainbow colors on each page of your notebook. In total, 30-40 sheets are needed. It is important to take into account that on the one side of each page you need to draw them in the usual sequence, and on the other - in the opposite, otherwise you will not get a rainbow.

A rainbow to touch

And one more fun way to get a rainbow that will brilliantly decorate any modern interior, without taking away a centimeter of space and filling it with a rainbow glow. To do this, Mexican designer Gabriel Dawe suggests using skillfully stretched sewing thread. With such an installation, of course, you have to tinker for an hour or two, but the result is worth it. It is not for nothing that the artist's works were a huge success in many countries, including the USA, Belgium, Canada and Great Britain.