Chemical experiments for children using home remedies. Home experiments for children. years. Invisible ink

For the development of a child, it is necessary to use all possible means, including experiments for children, which trained parents can conduct at home. This type of activity is very interesting for preschoolers, it helps them learn a lot about the world around them and take direct part in the research process. The main rule that mothers and fathers should adhere to is the absence of coercion: classes should be conducted only when the child himself is ready for experiments.

Physical

Such scientific experiments will interest an inquisitive little one and help him gain new knowledge:

• about the properties of liquid;
• about atmospheric pressure;
• about the interaction of molecules.

In addition, under clear parental guidance, he will be able to repeat everything without difficulty.

Bottle filling

You should prepare your inventory in advance. Need hot water Glass bottle and a bowl of cold water(for clarity, the liquid should be pre-tinted).

The procedure is as follows:

1. Needs to be bottled hot water several times to ensure the container is properly warmed up.
2. Pour out the hot liquid completely.
3. Turn the bottle upside down and place it in a bowl of cold water.
4. You will see that water from the bowl will begin to flow into the bottle.

Why is this happening? Due to the effect of the hot liquid, the bottle was filled with warm air. As the gas cools, it contracts, causing the volume it occupies to decrease, forming a low-pressure environment in the bottle. As water flows in, it restores balance. This experiment with water can be done at home without any problems.

With a glass

Every child, even at 3-4 years old, knows that if you turn over a glass filled with water, the liquid will spill out. However there is interesting experience, capable of proving the opposite.

Procedure:

1. Pour water into a glass.
2. Cover it with a piece of cardboard.
3. Holding the sheet with your hand, carefully turn the structure over.
4. You can remove your hand.

Surprisingly, the water will not spill out - the molecules of the cardboard and the liquid will mix at the moment of contact. Therefore, the sheet will hold on, becoming a kind of lid. You can also tell the child about atmospheric pressure, that it exists both inside the glass and outside, while in the container it is lower, outside it is higher. Due to this difference, water does not spill out.

A similar experiment is best carried out over a basin, since gradually the paper material will get wet and the liquid will drip.

Developmental experiments

Eat a large number of truly interesting experiments for kids.

Eruption

This experience is rightfully considered one of the most exciting and therefore loved by children. To carry it out you will need:

• soda;
• red paint;
• citric acid or lemon juice;
• water;
• A little detergent.

First you should build the “volcano” itself, making a cone from thick paper, securing the edges with tape and cutting a hole on top. Then the resulting blank is put on any bottle. To resemble a volcano, it should be covered with brown plasticine and placed on a large baking sheet so that the “lava” does not spoil the surface of the table.

Procedure:

1. Pour soda into the bottle.
2. Add paint.
3. Add a drop of detergent (1 drop).
4. Pour water and mix well.

For the “eruption” to begin, you need to ask the child to add a little citric acid(or lemon juice). This simplest example chemical reaction.

Dancing worms

This simple, fun experiment can be done with both preschoolers and elementary school students. Necessary equipment:

• corn starch;
• water;
• baking tray;
• paints (food coloring);
• music column.

First you need to mix 2 cups of starch and a glass of water. Pour the resulting substance onto a baking sheet, add paint or dye.

All that remains is to turn on loud music and place the baking sheet on the speaker. The colors on the workpiece will be mixed in a chaotic manner, creating a beautiful, unusual spectacle.

We use food

To make an experiment that is unusual, interesting for your child and educational, it is not at all necessary to purchase complex equipment and expensive materials. We invite you to get to know the very simple options, available for execution at home.

With egg

Necessary equipment:

• glass of water (tall);
• egg;
• salt;
• water.

The idea is simple - an egg immersed in water will sink to the bottom. If you add table salt (about 6 tablespoons) to the liquid, it will rise to the surface. This physical experience with salt helps illustrate the concept of density to your child. So, salted water has more water, so the egg can float on the surface.

You can also show the opposite effect (which is why it was recommended to take a tall glass) - when added to salted liquid, a simple tap water the density will decrease and the egg will sink to the bottom.

Invisible ink

A very interesting and simple trick, which at first will seem like real magic to the baby, and after the parents explain it, it will help to learn about oxidation.

Necessary equipment:

• ½ lemon;
• water;
• spoon and plate;
• paper;
• lamp;
• cotton swab.

If lemon is not available, you can use analogues, such as milk, onion juice or wine.

Procedure:

1. Squeeze the citrus juice, add it to a plate, mix with an equal amount of water.
2. Dip the tampon into the resulting liquid.
3. Use it to write something the child can understand (or draw).
4. Wait until the juice dries, becoming completely invisible.
5. Heat the sheet (using a lamp or holding it over a fire).

Text or a simple drawing will become visible due to the fact that the juice has oxidized and turned brown when the temperature rises.

Color explosion

The little ones can enjoy a fun experiment with milk and paints, which can be carried out without any problems in the kitchen.

Required products and equipment:

• milk (preferably high fat content);
• food coloring (several colors - the more, the more interesting and brighter it will be);
• dishwashing liquid;
• plate;
• cotton buds;
• pipette.

If dishwashing liquid is not available, liquid soap can be used.

Procedure:

1. Pour milk into a plate. It should completely hide the bottom.
2. Let the liquid sit for a while until it reaches room temperature.
3. Using a pipette, carefully drop several different food colors into the bowl of milk.
4. By lightly touching the liquid with a cotton swab, you need to show the baby what is happening.
5. Next, take a second stick and dip it in detergent. It touches the surface of the milk and holds for 10 seconds. There is no need to mix colorful stains, a gentle touch is enough.

Next, the baby will be able to observe the most beautiful thing - the colors begin to “dance”, as if trying to escape from the soap stick. Even if you remove it now, the “explosion” will continue. At this stage, you can invite the child to participate himself - add dye, immerse a soapy stick in the liquid.

The secret of the experiment is simple - the detergent destroys the fat contained in the milk, which causes the “dance”.

With sugar

For children 3-4 years old, various experiments with food will be very interesting. The child will be happy to learn about new qualities of his usual food.

For this entertaining entertainment required:

• 10 tbsp. l. Sahara;
• water;
• food colors of several colors;
• two spoons (teaspoon, tablespoon);
• syringe;
• 5 glasses.

First you need to add sugar to the glasses according to this scheme:

• in the first glass - 1 tbsp. l.;
• in the second - 2 tbsp. l.;
• in the third - 3 tbsp. l.;
• in the fourth - 4 tbsp. l.

Add 3 tsp to each of them. water. Mix. Then you need to add a dye of your own color to each of the glasses and mix again. The next step is to carefully take the colored liquid from the fourth glass using a syringe or a teaspoon and pour it into the fifth, which was empty. Then colored water is added in the same order from the third, second and finally from the first glasses.

If you act carefully, the colored liquids will not mix, but, when layered on top of each other, they will help create a bright, unusual pyramid. The secret of the trick is that the density of water changes depending on the amount of sugar added to it.

With flour

Let's consider another interesting experience for children, simple and safe. It can be carried out either in kindergarten, and at home.

Necessary equipment:

• flour;
• salt;
• paints (gouache);
• brush;
• sheet of cardboard.

Procedure:

1. In a small glass you need to mix 1 tbsp. l. flour and salt. This is a blank from which we will later make paint of the same color. Accordingly, the number of such blanks is equal to the number of flowers.
2. Add 3 tbsp to each glass. l. water and gouache.
3. Using paint, ask your child to draw a picture on cardboard using a brush or cotton swab, one for each color.
4. Place the finished creation in the microwave (power 600 W) for 5 minutes.

The paints, which are dough, will rise and harden, making the drawing three-dimensional.

Lava lamp

Another unusual children's experiment allows you to create a real lava lamp. After watching just once, even a novice researcher will be able to repeat the experiment with his own hands, without the help of adults.

Required equipment and materials:

• vegetable oil (glass);
• salt (1 tsp);
• water;
• food coloring (several shades);
• glass jar.

Procedure:

1. Fill the jar 2/3 full with water.
2. Add vegetable oil, which at this stage forms a thick film on the surface.
3. Add food coloring.
4. Slowly add salt.

Under the weight of the salt, the oil will begin to sink to the bottom, and the dye will make the spectacle more colorful and impressive.

With soda

To demonstrate to a child preschool age An experiment with soda is perfect:

1. Pour the drink into a glass.
2. Drop a few peas or cherry pits into it.
3. Watch how they gradually rise from the bottom and fall again.

An amazing sight for a child who does not yet know that the peas are surrounded by bubbles of carbon dioxide, which brings them to the surface. Submarines operate on a similar principle.

With water

There are several educational optical experiments that, despite their simplicity, are very interesting.

• The missing ruble

Water is poured into a jar and an iron ruble is dropped into it. Now you need to ask the baby to find the coin by looking through the glass. Due to the optical phenomenon of refraction, the eye will not be able to see the ruble if it is directed from the side. If you look into the jar from above, the coin will be in place.

• curved spoon

Let's continue exploring optics with a preschooler. This easy but visual experiment is carried out like this: you need to pour water into a glass and dip a spoon into it. Ask your baby to look from the side. He will see that at the boundary of the media - water and air - the spoon appears curved. By taking out the spoon, you can make sure that everything is okay with it.

The child should be explained that a ray of light bends when passing through water, which is why we see a changed image. You can continue the water theme and lower the same spoon into a small jar. Curvature will not occur since the walls of this container are smooth.

This biological experiment will help the child get acquainted with the world of living nature and observe how a sprout is formed. Beans or peas are required for this.

Parents can invite the young botanist to independently moisten a piece of gauze folded several times with water, place it on a saucer, place peas or beans on the cloth and cover with damp gauze. The baby’s task is to carefully ensure that the seeds are moistened at all times and check them regularly. In a couple of days the first shoots will appear.

Photosynthesis process

This plant and candle experience is best for junior schoolchildren who know that trees and grass absorb carbon dioxide and release oxygen.

The gist is this:

1. Carefully place burning candles into two jars.
2. Place a living plant in one of them.
3. Cover both containers with a lid.

Observe that the candle in the jar with the plant continues to burn because oxygen is present in it. In the second bank it goes out almost immediately.

Entertaining

We catch electricity. This one is small and safe experience It can easily be done with kids.

1. One inflated balloon is placed on the wall, several others lie on the floor.
2. The mother invites the child to place all the balls on the wall. However, they will not hold on and will fall.
3. The mother asks the baby to rub the ball on his hair and try again. Now the ball has been attached.

After this, you need to tell that the “miracle” happened thanks to the electricity that was generated when the ball was rubbed on the hair.

Another option for the curious is an experiment with foil. It goes like this:

1. A small piece of foil needs to be cut into strips.
2. Ask your little one to comb her hair.
3. Now you need to lean the comb against the strip and observe. The foil will stick to the comb.

You can also demonstrate “The Lost Chalk” to children. To do this, a piece of ordinary chalk is placed in vinegar. The limestone will begin to hiss and decrease in size. After some time it will completely dissolve. This is due to the fact that chalk, when it comes into contact with vinegar, turns into other substances.

Experiments with preschool children are an excellent opportunity to develop their curiosity and answer many questions in a visual and understandable form. In addition, by offering children a variety of experiments, attentive parents will help them in early age outline your own range of interests. And the research itself will be a great and fun pastime.

Pour water into the glass, making sure to reach the very edge. Cover with a sheet of thick paper and, holding it gently, very quickly turn the glass upside down. Just in case, do all this over the basin or in the bathtub. Now remove your palm... Focus! still remains in the glass!

It's about the pressure atmospheric air. Air pressure on paper from outside more pressure on it from the inside of the glass and, accordingly, does not allow the paper to release water from the container.

Rene Descartes' experiment or pipette diver

This entertaining experience is about three hundred years old. It is attributed to the French scientist René Descartes.

You will need plastic bottle with stopper, pipette and water. Fill the bottle, leaving two to three millimeters to the edge of the neck. Take a pipette, fill it with some water and drop it into the neck of the bottle. Its upper rubber end should be at or slightly above the level in the bottle. In this case, you need to ensure that with a slight push with your finger the pipette sinks, and then slowly floats up on its own. Now close the cap and squeeze the sides of the bottle. The pipette will go to the bottom of the bottle. Release the pressure on the bottle and it will float again.

The fact is that we slightly compressed the air in the neck of the bottle and this pressure was transferred to the water. penetrated the pipette - it became heavier (since water is heavier than air) and drowned. When the pressure stops compressed air I removed the excess inside the pipette, our “diver” became lighter and surfaced. If at the beginning of the experiment the “diver” does not listen to you, then you need to adjust the amount of water in the pipette. When the pipette is at the bottom of the bottle, it is easy to see how, as the pressure on the walls of the bottle increases, it enters the pipette, and when the pressure is loosened, it comes out of it.

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We have a lot of things stored in our kitchen that we can use most interesting experiments for children. Well, for myself, to be honest, make a couple of discoveries from the “how did I not notice this before” category.

website I chose 9 experiments that will delight children and raise many new questions in them.

1. Lava lamp

Needed: Salt, water, a glass of vegetable oil, some food coloring, a large transparent glass or glass jar.

Experience: Fill the glass 2/3 with water, pour vegetable oil into the water. Oil will float on the surface. Add food coloring to water and oil. Then slowly add 1 teaspoon of salt.

Explanation: Oil is lighter than water, so it floats on the surface, but salt is heavier than oil, so when you add salt to a glass, the oil and salt begin to sink to the bottom. As the salt breaks down, it releases oil particles and they rise to the surface. Food coloring will help make the experience more visual and spectacular.

2. Personal rainbow

Needed: A container filled with water (bathtub, basin), a flashlight, a mirror, a sheet of white paper.

Experience: Pour water into a container and place a mirror on the bottom. We direct the light of the flashlight onto the mirror. The reflected light must be caught on the paper on which a rainbow should appear.

Explanation: A ray of light consists of several colors; when it passes through the water, it breaks down into its component parts - in the form of a rainbow.

3. Vulcan

Needed: Tray, sand, plastic bottle, food coloring, soda, vinegar.

Experience: A small volcano should be molded around a small plastic bottle from clay or sand - for the surroundings. To cause an eruption, you should pour two tablespoons of soda into the bottle, pour in a quarter cup of warm water, add a little food coloring, and finally pour in a quarter cup of vinegar.

Explanation: When baking soda and vinegar come into contact, a violent reaction begins, releasing water, salt and carbon dioxide. Gas bubbles push the contents out.

4. Growing crystals

Needed: Salt, water, wire.

Experience: To obtain crystals, you need to prepare a supersaturated salt solution - one in which the salt does not dissolve when adding a new portion. In this case, you need to keep the solution warm. To make the process go better, it is desirable that the water be distilled. When the solution is ready, it must be poured into a new container to get rid of the debris that is always in the salt. Next, you can lower a wire with a small loop at the end into the solution. Place the jar in a warm place so that the liquid cools more slowly. In a few days, beautiful salt crystals will grow on the wire. If you get the hang of it, you can grow fairly large crystals or patterned crafts on twisted wire.

Explanation: As the water cools, the solubility of the salt decreases, and it begins to precipitate and settle on the walls of the vessel and on your wire.

5. Dancing coin

Needed: Bottle, coin to cover the neck of the bottle, water.

Experience: The empty, unclosed bottle should be placed in the freezer for a few minutes. Moisten a coin with water and cover the bottle removed from the freezer with it. After a few seconds, the coin will begin to jump and, hitting the neck of the bottle, make sounds similar to clicks.

Explanation: The coin is lifted by air, which compressed in the freezer and occupied a smaller volume, but has now heated up and begun to expand.

6. Colored milk

Needed: Whole milk, food coloring, liquid detergent, cotton swabs, plate.

Experience: Pour milk into a plate, add a few drops of coloring. Then you need to take a cotton swab, dip it in the detergent and touch the swab to the very center of the plate with milk. The milk will begin to move and the colors will begin to mix.

Explanation: The detergent reacts with the fat molecules in the milk and causes them to move. This is why skim milk is not suitable for the experiment.

7. Fireproof bill

Needed: Ten-ruble bill, tongs, matches or lighter, salt, 50% alcohol solution (1/2 part alcohol to 1/2 part water).

Experience: Add a pinch of salt to the alcohol solution, immerse the bill in the solution until it is completely saturated. Remove the bill from the solution with tongs and let it drain excess liquid. Set the bill on fire and watch it burn without getting burned.

Explanation: The combustion of ethyl alcohol produces water, carbon dioxide and heat (energy). When you set fire to a bill, the alcohol burns. The temperature at which it burns is not sufficient to evaporate the water with which it is soaked. paper bill. As a result, all the alcohol burns out, the flame goes out, and the slightly damp ten remains intact.

9. Camera obscura

You will need:

A camera that supports long shutter speeds (up to 30 s);

Large sheet of thick cardboard;

Masking tape (for gluing cardboard);

A room with a view of anything;

Sunny day.

1. Cover the window with cardboard so that light does not come from the street.

2. We make a smooth hole in the center (for a room 3 meters deep, the hole should be about 7-8 mm).

3. When your eyes get used to the darkness, you will see an inverted street on the walls of the room! The most visible effect will be achieved on a bright sunny day.

4. Now the result can be shot with a camera at a long shutter speed. A shutter speed of 10-30 seconds is fine.

The Ghostbusters remake is coming out very soon, and this is a great excuse to rewatch the old film and study non-Newtonian fluids. One of the heroes of the film, the stupid ghost Lizun, - good image for visualization. This is a character who loves to eat, and he can also penetrate walls.

We will need:

• potato,
• tonic.

What we do

Cut the potatoes very finely (can be chopped in a food processor) and pour hot water. After 10-15 minutes, drain the water through a sieve into a clean bowl and set aside. A sediment will appear at the bottom - starch. Drain the water; the starch will remain in the bowl. Basically, you will already get non-Newtonian fluid. You can play with it and watch how it hardens under your hands and becomes liquid on its own. You can also add food coloring for bright color.

Now let's add a little magic.

The starch needs to be dried (leaved for a couple of days). And then add tonic to it and make a kind of dough that is easy to pick up. It will retain its consistency in your palms, but if you stop and stop kneading it, it will begin to spread.

If you enable ultraviolet lamp, then you and your child will see how the dough begins to glow. This is due to the quinine found in tonic water. It looks magical: a glowing substance that behaves as if it violates all the laws of physics.

2. Get superpowers

Comic book heroes are especially popular now, so your child will love feeling like the powerful Magneto, who can control metals.

We will need:

• printer toner,
• magnet,
• vegetable oil.

What we do

From the very beginning, be prepared for the fact that after this experiment you will need a lot of napkins or rags - it will be quite dirty.

Pour about 50 ml of laser printer toner into a small container. Add two tablespoons of vegetable oil and mix very well. Done - you have in your hands a liquid that will react to a magnet.

You can attach a magnet to the container and watch how the liquid literally sticks to the wall, forming a funny “hedgehog”. It will be even more interesting if you find a board on which you don’t mind pouring a little black mixture, and invite your child to use a magnet to control the drop of toner.

3. Turn milk into a cow

Invite your child to turn liquid into solid without resorting to freezing. This is a very simple and impressive experience, although you will have to wait a couple of days to get the results. But what an effect!

We will need:

• cup ,
• vinegar.

What we do

Heat a glass of milk in microwave oven or on the stove. We don't boil. Then you need to add a tablespoon of vinegar to it. Now let's start stirring things up. Actively move the spoon in the glass to see white clots appear. This is casein, a protein found in milk.

When there are a lot of clots, drain the mixture through a sieve. Whatever remains in the colander needs to be shaken and then placed on paper towel and dry a little. Then start kneading the material with your hands. It will look like dough or clay. At this stage you can add food coloring or glitter to make white mass brighter and more interesting for the baby.

Invite your child to make something from this material - a figurine of an animal (for example, a cow) or some other object. But you can just put the mass in plastic mold. Leave to dry for a day or two.

When the mass dries, you will have a figurine made of very hard hypoallergenic material. This type of “homemade plastic” was used until the 1930s. Casein was used to make jewelry, accessories, and buttons.

4. Control snakes

Getting vinegar and baking soda to react is just about the most boring experience imaginable. “Volcanoes” and “fizzy drinks” will not be of interest to modern children. But you can invite your child to become a “snake lord” and show how acid and alkali actually react.

We will need:

• pack of gummy worms,
• soda,
• vinegar.

What we do

Take two large transparent glasses. Pour water into one and add soda. Mix. Open the package of gummy worms. It’s better to cut each of them lengthwise and make them thinner. Then the experience will be more spectacular.

Thin worms should be placed in a mixture of water and soda and mixed. Set aside for 5 minutes.

Pour vinegar into another glass. Now we add to this vessel the worms that were in the glass with soda. Because of the soda, bubbles will be visible on their surface. This means there is a reaction. The more worms you add to the glass, the more gas will be released. And after some time, the bubbles will lift the worms to the surface. Add more soda - the reaction will be more active and the worms themselves will begin to crawl out of the glass. Cool!

5. Make a hologram like in Star Wars

Of course, it is difficult to create a real hologram at home. But its likeness is quite real and not even very difficult. You will learn to use the properties of light and turn 2D pictures into three-dimensional images.

We will need:

• smartphone,
• CD box,
• stationery knife,
• scotch,
• paper,
• pencil.

What we do

You need to draw a trapezoid on paper. The drawing can be seen in the photo: length bottom side trapezoid - 6 cm, upper - 1 cm.

Carefully cut out a trapezoid from paper and take out the CD box. We need the transparent part of it. Attach the pattern to the plastic and use a utility knife to cut a trapezoid out of the plastic. Repeat three more times - we will need four identical transparent elements.

Now they need to be glued together with tape so that it looks like a funnel or a truncated pyramid.

Take your smartphone and run one of the such videos. Place the plastic pyramid with the narrow part down in the center of the screen. Inside you will see a “hologram”.

You can play a video with characters from " Star Wars"and, for example, recreate the famous recording of Princess Leia or admire his own miniature BB-8.

6. Get away with it

Every child can build a sand castle on the seashore. How about we line it up under water? Along the way, you can learn the concept of “hydrophobic.”

We will need:

• colored sand for aquariums (you can also take regular sand, but it needs to be washed and dried),
• hydrophobic shoe spray.

What we do

Carefully pour the sand onto a large plate or baking sheet. We apply a hydrophobic spray to it. We do this very carefully: spray, mix, repeat several times. The task is simple - make sure that every grain of sand is enveloped in a protective layer.

When the sand dries, collect it in a bottle or bag. Take a large container for water (for example, a wide-mouthed jar or an aquarium). Show your child how hydrophobic sand “works”. If you pour it in a thin stream into water, it will sink to the bottom but remain dry. This is easy to check: let the baby take some sand from the bottom of the container. As soon as the sand rises from the water, it will crumble in the palm of your hand.

7. Keep information secret better than James Bond

Write secret messages lemon juice - last century. There is another way to make invisible ink, which also allows you to learn a little more about the reaction of iodine and starch.

We will need:

• paper,
• brush.

What we do

First, cook the rice. The porridge can be eaten later, but we need a decoction - it contains a lot of starch. Dip your brush into it and write on paper secret message, for example, “I know who ate all the cookies yesterday.” Wait for the paper to dry. Starchy letters will be invisible. To decipher the message, you need to moisten another brush or cotton swab in a solution of iodine and water and run it over what is written. Due to the chemical reaction, blue letters will begin to appear on the paper. Voila!

Who didn't believe in miracles as a child? To have a fun and educational time with your baby, you can try experiments in entertaining chemistry. They are safe, interesting and educational. These experiments will answer many children's “whys” and awaken interest in science and knowledge of the world around us. And today I want to tell you what experiments parents can organize for children at home.

Pharaoh's snake

This experience is based on increasing the volume of mixed reagents. During the burning process, they transform and, wriggling, resemble a snake. The experiment got its name from a biblical miracle when Moses, who came to Pharaoh with a request, turned his rod into a snake.

For the experiment you will need the following ingredients:

• regular sand;
• ethanol;
• crushed sugar;
• baking soda.

We soak the sand in alcohol, then form a small hill out of it and make a depression at the top. After this, mix a small spoon of powdered sugar and a pinch of soda, then pour everything into an improvised “crater”. We set fire to our volcano, the alcohol in the sand begins to burn out, and black balls form. They are a product of the decomposition of soda and caramelized sugar.

After all the alcohol has burned out, the pile of sand will turn black and a wriggling “black pharaoh’s snake” will form. This experiment looks more impressive using real reagents and strong acids, which can only be used in a chemical laboratory.

You can do it a little easier and buy a calcium gluconate tablet at the pharmacy. Set it on fire at home, the effect will be almost the same, only the “snake” will quickly collapse.

Magic lamp

In stores you can often see lamps, inside of which a beautiful illuminated liquid moves and shimmers. Such lamps were invented in the early 60s. They work on the basis of paraffin and oil. At the bottom of the device there is a built-in conventional incandescent lamp, which heats the descending molten wax. Part of it reaches the top and falls, the other part heats up and rises, so we see a kind of “dance” of paraffin inside the container.

In order to carry out a similar experience at home with a child, we will need:

• any juice;
• vegetable oil;
• effervescent tablets;
• beautiful container.

Take a container and fill it more than halfway with juice. Add vegetable oil on top and throw in an effervescent tablet. It begins to “work”, the bubbles rising from the bottom of the glass capture the juice and form a beautiful bubbling in the oil layer. Then the bubbles reaching the edge of the glass burst and the juice falls down. It turns out to be a kind of “circulation” of juice in a glass. Such magic lamps are absolutely harmless, unlike paraffin lamps, which a child can accidentally break and get burned.

Ball and orange: experience for kids

What will happen to a balloon if you drop orange or lemon juice on it? It will burst as soon as the citrus droplets touch it. And you can then eat the orange with your baby. It's very entertaining and fun. For the experiment we will need a couple of balloons and citrus. We inflate them and let the baby drip some fruit juice onto each one and see what happens.

Why does the balloon burst? It's all about the special chemical substance– limonene. It is found in citrus fruits and is often used in the cosmetics industry. When the juice comes into contact with the rubber of the balloon, a reaction occurs, limonene dissolves the rubber and the balloon bursts.

Sweet glass

You can make amazing things from caramelized sugar. In the early days of cinema, edible sweet glass was used in most fight scenes. This is because it is less traumatic for actors during filming and is inexpensive. Its fragments can then be collected, melted and made into film props.

Many people made sugar cockerels or fudge in childhood; glass should be made according to the same principle. Pour water into the pan, heat it up a little, the water should not be cold. After this, add granulated sugar and bring to a boil. When the liquid boils, cook until the mixture gradually begins to thicken and bubbles strongly. The melted sugar in the container should turn into a viscous caramel, which, if lowered into cold water will turn into glass.

Pour the prepared liquid onto the previously prepared and lubricated vegetable oil pan, cool and the sweet glass is ready.

During the cooking process, you can add dye to it and cast it into some interesting shape, and then treat and surprise everyone around you.

Philosophical nail

This entertaining experience based on the principle of copper plating of iron. Named by analogy with a substance that, according to legend, could turn everything into gold, and was called the philosopher's stone. To conduct the experiment we will need:

• iron nail;
• a quarter of a glass of acetic acid;
• table salt;
• soda;
• a piece of copper wire;
• glass container.

Take a glass jar and pour acid and salt into it and stir well. Be careful, vinegar is harsh bad smell. It can burn tender Airways child. Then add to the resulting solution copper wire for 10-15 minutes, after some time we lower an iron nail, previously cleaned with soda, into the solution. After some time, we can see that a copper coating has appeared on it, and the wire has become shiny as new. How could this happen?

Copper reacts with acetic acid, is formed copper salt, then the copper ions on the surface of the nail change places with the iron ions and form a coating on its surface. And the concentration of iron salts in the solution increases.

Copper coins are not suitable for the experiment because this metal itself is very soft, and to make the money stronger, its alloys with brass and aluminum are used.

Copper products do not rust over time; they are covered with a special green coating - patina, which prevents it from further corrosion.

DIY soap bubbles

Who didn't love blowing soap bubbles as a child? How beautifully they shimmer and burst merrily. You can simply buy them in the store, but it will be much more interesting to create your own solution with your child and then blow bubbles.

It should be said right away that the usual mixture of laundry soap and water will not work. It produces bubbles that quickly disappear and are difficult to blow out. Most affordable way To prepare such a substance, mix two glasses of water with a glass of dishwashing detergent. If you add sugar to the solution, the bubbles become stronger. They will for a long time fly and won't burst. And the huge bubbles that can be seen on stage by professional artists are created by mixing glycerin, water and detergent.

For beauty and mood, you can mix food coloring into the solution. Then the bubbles will glow beautifully in the sun. You can create several different solutions and use them in turns with your child. It's interesting to experiment with color and create your own new shade of soap bubbles.

You can also try mixing the soap solution with other substances and see how they affect the bubbles. Maybe you will invent and patent some new type of yours.

Spy ink

This legendary invisible ink. What are they made of? Now there are so many films about spies and interesting intellectual investigations. You can invite your child to play secret agents a little.

The point of such ink is that it cannot be seen on paper with the naked eye. Only by applying a special influence, for example, heating or chemical reagents you can see the secret message. Unfortunately, most recipes for making them are ineffective and such ink leaves marks.

We will make special ones that are difficult to see without special identification. For this you will need:

• water;
• spoon;
• baking soda;
• any heat source;
• stick with cotton on the end.

Pour warm liquid into any container, then, stirring, pour in baking soda until it stops dissolving, i.e. the mixture will reach a high concentration. We put a stick with cotton wool at the end there and write something on paper with it. Let's wait until it dries, then hold the leaf to a lit candle or gas stove. After a while, you can see how the yellow letters of the written word appear on the paper. Make sure that the leaf does not catch fire while developing the letters.

Fireproof money

This is a famous and old experiment. For it you will need:

• water;
• alcohol;
• salt.

Take a deep glass container and pour water into it, then add alcohol and salt, stir well until all ingredients dissolve. To set it on fire, you can take ordinary pieces of paper, or if you don’t mind, you can take a banknote. Just take a small denomination, otherwise something may go wrong in the experiment and the money will be spoiled.

Place strips of paper or money in a water-salt solution; after a while they can be removed from the liquid and set on fire. You can see that the flame covers the entire bill, but it does not light up. This effect is explained by the fact that the alcohol in the solution evaporates, and the wet paper itself does not catch fire.

Wish-fulfilling stone

The process of growing crystals is very exciting, but labor-intensive. However, what you get as a result will be worth your time. The most popular is the creation of crystals from table salt or sugar.

Let's consider growing a “wishing stone” from refined sugar. For this you will need:

• drinking water;
• granulated sugar;
• piece of paper;
• thin wooden stick;
• small container and glass.

First, let's make the preparation. To do this we need to prepare a sugar mixture. IN small capacity pour out some water and sugar. Let the mixture boil and cook until it becomes syrupy. Then we lower the wooden stick there and sprinkle it with sugar, this must be done evenly, in this case the resulting crystal will become more beautiful and even. Leave the base for the crystal overnight to dry and harden.

Let's start preparing the syrup solution. Pour water into a large container and add sugar, stirring slowly. Then, when the mixture boils, cook it until it becomes a viscous syrup. Remove from heat and let cool.

We cut out circles from paper and attach them to the end of a wooden stick. It will become the lid on which the wand with crystals is attached. Fill the glass with the solution and lower the workpiece into it. We wait for a week, and the “wishing stone” is ready. If you add dye to the syrup during cooking, it will turn out even more beautiful.

The process of creating crystals from salt is somewhat simpler. Here you just need to monitor the mixture and change it periodically in order to increase the concentration.

First of all, we create a blank. Pour warm water into a glass container and gradually stir, add salt until it stops dissolving. Leave the container for a day. After this time, you can find many small crystals in the glass; choose the largest one and tie it to a thread. Make a new one brine and put the crystal there; it must not touch the bottom or edges of the glass. This may lead to unwanted deformations.

After a couple of days you can notice that he has grown. The more often you change the mixture, increasing the concentration of salt, the faster you can grow your wishing stone.

Glowing tomato

This experiment must be carried out strictly under the supervision of adults, since it is carried out using harmful substances. The glowing tomato that will be created during this experiment should absolutely not be eaten, as it can lead to death or severe poisoning. We will need:

• regular tomato;
• syringe;
• sulfuric matter from matches;
• bleach;
• hydrogen peroxide.

We take a small container, put pre-prepared match sulfur there and pour in bleach. We leave all this for a while, after which we take the mixture into a syringe and inject it inside the tomato from different sides, so that it glows evenly. To start the chemical process, hydrogen peroxide is needed, which we introduce through the trace from the petiole from above. We turn off the lights in the room and we can enjoy the process.

Egg in vinegar: a very simple experiment

This is a simple and interesting ordinary acetic acid. To implement it you will need boiled egg and vinegar. Take a transparent glass container and place an egg in its shell in it, then fill it to the top with acetic acid. You can see bubbles rising from its surface, this is happening chemical reaction. After three days, we can observe that the shell has become soft and the egg is elastic, like a ball. If you shine a flashlight on it, you can see that it glows. Conduct an experiment with raw egg not recommended, as the soft shell may rupture when squeezed.

DIY slime made from PVA

This is quite common strange toy our childhood. Currently it is quite difficult to find it. Let's try to make slime at home. Its classic color is green, but you can use the one you like. Try mixing several shades and creating your own unique color.

To conduct the experiment we will need:

• glass jar;
• several small glasses;
• dye;
• PVA glue;
• regular starch.

Let's prepare three identical glasses with solutions that we will mix. Pour PVA glue into the first, water into the second, and dilute starch into the third. First, pour water into the jar, then add glue and dye, stir everything thoroughly and then add starch. The mixture needs to be stirred quickly so that it does not thicken, and you can play with the finished slime.

How to quickly inflate a balloon

Is there a holiday coming up and you need to inflate a lot of balloons? What to do? This unusual experience will help make the task easier. For it we need a rubber ball, acetic acid and regular soda. It must be carried out carefully in the presence of adults.

Pour a pinch of soda into a balloon and place it on the neck of a bottle of acetic acid so that the soda does not spill out, straighten the balloon and let its contents fall into the vinegar. You will see a chemical reaction take place and it will begin to foam, releasing carbon dioxide and inflating the balloon.

That's all for today. Don’t forget, it’s better to conduct experiments for children at home under supervision, it will be safer and more interesting. See you again!